--- _id: '60600' abstract: - lang: eng text: In the search for noble metal free photocatalytic systems, iron is the dream candidate. To increase excited state lifetimes of iron complexes, the multichromophoric approach is promising, combining organic chromophores with photoactive iron complexes, potentially enabling a reservoir effect. We present a series of chromophore-functionalized complexes based on the parental FeIII complex [Fe(ImP)2][PF6] (HImP = 1,1′-(1,3-phenylene)bis(3-methyl-1-imidazole-2-ylidene)). The four organic chromophores benzene, naphthalene, anthracene, and pyrene are attached to the ImP-ligand in para-position to the coordination site to systematically investigate the influence of the steric demand and electronic properties of the chromophore on charge transfer lifetimes as well as photodynamics. A thorough ground state characterization was conducted in addition to investigations of the excited state dynamics by transient absorption spectroscopy and streak camera emission measurements. The conclusions drawn are supported by extensive DFT calculations. The emission coefficients could be significantly improved by the addition of chromophores. After excitation of the complexes with larger chromophores, coplanarization of the backbone and complex motif occurs to stabilize the formal charge. This results in population of a superligand state that exhibits a much faster radiationless relaxation to the ground state compared to the parent complex, hindering a reservoir effect. article_number: acs.inorgchem.5c00526 author: - first_name: Lennart full_name: Schmitz, Lennart id: '53140' last_name: Schmitz - first_name: Miguel A. full_name: Argüello Cordero, Miguel A. last_name: Argüello Cordero - first_name: Mohammed J. full_name: Al-Marri, Mohammed J. last_name: Al-Marri - first_name: Roland full_name: Schoch, Roland id: '48467' last_name: Schoch orcid: 0000-0003-2061-7289 - first_name: Hans full_name: Egold, Hans id: '101' last_name: Egold - first_name: Adam full_name: Neuba, Adam last_name: Neuba - first_name: Jakob full_name: Steube, Jakob id: '40342' last_name: Steube orcid: 0000-0003-3178-4429 - first_name: Bastian Johannes full_name: Bracht, Bastian Johannes id: '86707' last_name: Bracht - first_name: Olga S. full_name: Bokareva, Olga S. last_name: Bokareva - first_name: Stefan full_name: Lochbrunner, Stefan last_name: Lochbrunner - first_name: Matthias full_name: Bauer, Matthias id: '47241' last_name: Bauer orcid: 0000-0002-9294-6076 citation: ama: Schmitz L, Argüello Cordero MA, Al-Marri MJ, et al. Chromophore Induced Effects in Iron(III) Complexes. Inorganic Chemistry. Published online 2025. doi:10.1021/acs.inorgchem.5c00526 apa: Schmitz, L., Argüello Cordero, M. A., Al-Marri, M. J., Schoch, R., Egold, H., Neuba, A., Steube, J., Bracht, B. J., Bokareva, O. S., Lochbrunner, S., & Bauer, M. (2025). Chromophore Induced Effects in Iron(III) Complexes. Inorganic Chemistry, Article acs. inorgchem.5c00526. https://doi.org/10.1021/acs.inorgchem.5c00526 bibtex: '@article{Schmitz_Argüello Cordero_Al-Marri_Schoch_Egold_Neuba_Steube_Bracht_Bokareva_Lochbrunner_et al._2025, title={Chromophore Induced Effects in Iron(III) Complexes}, DOI={10.1021/acs.inorgchem.5c00526}, number={acs. inorgchem.5c00526}, journal={Inorganic Chemistry}, publisher={American Chemical Society (ACS)}, author={Schmitz, Lennart and Argüello Cordero, Miguel A. and Al-Marri, Mohammed J. and Schoch, Roland and Egold, Hans and Neuba, Adam and Steube, Jakob and Bracht, Bastian Johannes and Bokareva, Olga S. and Lochbrunner, Stefan and et al.}, year={2025} }' chicago: Schmitz, Lennart, Miguel A. Argüello Cordero, Mohammed J. Al-Marri, Roland Schoch, Hans Egold, Adam Neuba, Jakob Steube, et al. “Chromophore Induced Effects in Iron(III) Complexes.” Inorganic Chemistry, 2025. https://doi.org/10.1021/acs.inorgchem.5c00526. ieee: 'L. Schmitz et al., “Chromophore Induced Effects in Iron(III) Complexes,” Inorganic Chemistry, Art. no. acs. inorgchem.5c00526, 2025, doi: 10.1021/acs.inorgchem.5c00526.' mla: Schmitz, Lennart, et al. “Chromophore Induced Effects in Iron(III) Complexes.” Inorganic Chemistry, acs. inorgchem.5c00526, American Chemical Society (ACS), 2025, doi:10.1021/acs.inorgchem.5c00526. short: L. Schmitz, M.A. Argüello Cordero, M.J. Al-Marri, R. Schoch, H. Egold, A. Neuba, J. Steube, B.J. Bracht, O.S. Bokareva, S. Lochbrunner, M. Bauer, Inorganic Chemistry (2025). date_created: 2025-07-14T08:49:25Z date_updated: 2025-08-15T12:18:08Z department: - _id: '306' doi: 10.1021/acs.inorgchem.5c00526 keyword: - Photo language: - iso: eng publication: Inorganic Chemistry publication_identifier: issn: - 0020-1669 - 1520-510X publication_status: published publisher: American Chemical Society (ACS) status: public title: Chromophore Induced Effects in Iron(III) Complexes type: journal_article user_id: '48467' year: '2025' ... --- _id: '58180' abstract: - lang: eng text: 'A series of CoIII complexes [Co(RImP)2][PF6], with HMeImP = 1,1′-(1,3-phenylene)bis(3-methyl-1-imidazole-2-ylidene)) and R = Me, Et, iPr, nBu, is presented in this work. The influence of the strong donor ligand on the ground and excited-state photophysical properties was investigated in the context of different alkyl substituents at the imidazole nitrogen. X-ray diffraction revealed no significant alterations of the structures and all differences in the series emerge from the electronic structures. These were probed via cyclic voltammetry and UV–vis spectroscopy, detailing the influence of the different alkyl substituents on the ground-state properties. All complexes are emissive at 77 K from a 3MC state, which exhibits lifetimes in the range of 1–5 ns at room temperature, depending on the alkyl substituent. Therefore, it is clearly shown that even small differences in the electronic structure have a large impact on the details of the excited state landscape. The observed behavior was rationalized by a detailed DFT analysis, which shows that the minimum-energy crossing point to the ground-state is located only slightly above the MC energy: Consequently, nonradiative decay to the ground state at room temperature is enabled, while at 77 K this path is prohibited, leading to low-temperature 3MC emission.' author: - first_name: Athul full_name: Krishna, Athul last_name: Krishna - first_name: Lorena full_name: Fritsch, Lorena id: '44418' last_name: Fritsch - first_name: Jakob full_name: Steube, Jakob id: '40342' last_name: Steube orcid: 0000-0003-3178-4429 - first_name: Miguel A. full_name: Argüello Cordero, Miguel A. last_name: Argüello Cordero - first_name: Roland full_name: Schoch, Roland id: '48467' last_name: Schoch orcid: 0000-0003-2061-7289 - first_name: Adam full_name: Neuba, Adam last_name: Neuba - first_name: Stefan full_name: Lochbrunner, Stefan last_name: Lochbrunner - first_name: Matthias full_name: Bauer, Matthias id: '47241' last_name: Bauer orcid: 0000-0002-9294-6076 citation: ama: Krishna A, Fritsch L, Steube J, et al. Low Temperature Emissive Cyclometalated Cobalt(III) Complexes. Inorganic Chemistry. Published online 2025. doi:10.1021/acs.inorgchem.4c04479 apa: Krishna, A., Fritsch, L., Steube, J., Argüello Cordero, M. A., Schoch, R., Neuba, A., Lochbrunner, S., & Bauer, M. (2025). Low Temperature Emissive Cyclometalated Cobalt(III) Complexes. Inorganic Chemistry. https://doi.org/10.1021/acs.inorgchem.4c04479 bibtex: '@article{Krishna_Fritsch_Steube_Argüello Cordero_Schoch_Neuba_Lochbrunner_Bauer_2025, title={Low Temperature Emissive Cyclometalated Cobalt(III) Complexes}, DOI={10.1021/acs.inorgchem.4c04479}, journal={Inorganic Chemistry}, publisher={American Chemical Society (ACS)}, author={Krishna, Athul and Fritsch, Lorena and Steube, Jakob and Argüello Cordero, Miguel A. and Schoch, Roland and Neuba, Adam and Lochbrunner, Stefan and Bauer, Matthias}, year={2025} }' chicago: Krishna, Athul, Lorena Fritsch, Jakob Steube, Miguel A. Argüello Cordero, Roland Schoch, Adam Neuba, Stefan Lochbrunner, and Matthias Bauer. “Low Temperature Emissive Cyclometalated Cobalt(III) Complexes.” Inorganic Chemistry, 2025. https://doi.org/10.1021/acs.inorgchem.4c04479. ieee: 'A. Krishna et al., “Low Temperature Emissive Cyclometalated Cobalt(III) Complexes,” Inorganic Chemistry, 2025, doi: 10.1021/acs.inorgchem.4c04479.' mla: Krishna, Athul, et al. “Low Temperature Emissive Cyclometalated Cobalt(III) Complexes.” Inorganic Chemistry, American Chemical Society (ACS), 2025, doi:10.1021/acs.inorgchem.4c04479. short: A. Krishna, L. Fritsch, J. Steube, M.A. Argüello Cordero, R. Schoch, A. Neuba, S. Lochbrunner, M. Bauer, Inorganic Chemistry (2025). date_created: 2025-01-15T08:29:21Z date_updated: 2025-08-15T12:30:18Z department: - _id: '306' doi: 10.1021/acs.inorgchem.4c04479 keyword: - Photo language: - iso: eng publication: Inorganic Chemistry publication_identifier: issn: - 0020-1669 - 1520-510X publication_status: published publisher: American Chemical Society (ACS) status: public title: Low Temperature Emissive Cyclometalated Cobalt(III) Complexes type: journal_article user_id: '48467' year: '2025' ... --- _id: '52541' abstract: - lang: eng text: AbstractWe conducted an investigation into the palladium‐catalyzed carbon‐sulfur cross‐coupling reaction involving a 2‐bromothiophene derivative and potassium thioacetate as a substitute for hydrogen sulfide. This investigation utilized kinetic and computational methods. We synthesized two palladium complexes supported by the bisphosphane ligands bis(diphenylphosphino)ferrocene (DPPF) and bis(diisopropylphosphino)ferrocene (DiPPF), as well as their tentative intermediates in the catalytic cycle. Reaction rates were measured and then compared to computational predictions. author: - first_name: Sebastian full_name: Peschtrich, Sebastian last_name: Peschtrich - first_name: Roland full_name: Schoch, Roland id: '48467' last_name: Schoch orcid: 0000-0003-2061-7289 - first_name: Dirk full_name: Kuckling, Dirk id: '287' last_name: Kuckling - first_name: Jan full_name: Paradies, Jan id: '53339' last_name: Paradies orcid: 0000-0002-3698-668X citation: ama: Peschtrich S, Schoch R, Kuckling D, Paradies J. A Comparative Kinetic and Computational Investigation of the Carbon‐Sulfur Cross Coupling of Potassium Thioacetate and 2‐Bromo Thiophene Using Palladium/Bisphosphine Complexes. European Journal of Organic Chemistry. 2024;27(8). doi:10.1002/ejoc.202301207 apa: Peschtrich, S., Schoch, R., Kuckling, D., & Paradies, J. (2024). A Comparative Kinetic and Computational Investigation of the Carbon‐Sulfur Cross Coupling of Potassium Thioacetate and 2‐Bromo Thiophene Using Palladium/Bisphosphine Complexes. European Journal of Organic Chemistry, 27(8). https://doi.org/10.1002/ejoc.202301207 bibtex: '@article{Peschtrich_Schoch_Kuckling_Paradies_2024, title={A Comparative Kinetic and Computational Investigation of the Carbon‐Sulfur Cross Coupling of Potassium Thioacetate and 2‐Bromo Thiophene Using Palladium/Bisphosphine Complexes}, volume={27}, DOI={10.1002/ejoc.202301207}, number={8}, journal={European Journal of Organic Chemistry}, publisher={Wiley}, author={Peschtrich, Sebastian and Schoch, Roland and Kuckling, Dirk and Paradies, Jan}, year={2024} }' chicago: Peschtrich, Sebastian, Roland Schoch, Dirk Kuckling, and Jan Paradies. “A Comparative Kinetic and Computational Investigation of the Carbon‐Sulfur Cross Coupling of Potassium Thioacetate and 2‐Bromo Thiophene Using Palladium/Bisphosphine Complexes.” European Journal of Organic Chemistry 27, no. 8 (2024). https://doi.org/10.1002/ejoc.202301207. ieee: 'S. Peschtrich, R. Schoch, D. Kuckling, and J. Paradies, “A Comparative Kinetic and Computational Investigation of the Carbon‐Sulfur Cross Coupling of Potassium Thioacetate and 2‐Bromo Thiophene Using Palladium/Bisphosphine Complexes,” European Journal of Organic Chemistry, vol. 27, no. 8, 2024, doi: 10.1002/ejoc.202301207.' mla: Peschtrich, Sebastian, et al. “A Comparative Kinetic and Computational Investigation of the Carbon‐Sulfur Cross Coupling of Potassium Thioacetate and 2‐Bromo Thiophene Using Palladium/Bisphosphine Complexes.” European Journal of Organic Chemistry, vol. 27, no. 8, Wiley, 2024, doi:10.1002/ejoc.202301207. short: S. Peschtrich, R. Schoch, D. Kuckling, J. Paradies, European Journal of Organic Chemistry 27 (2024). date_created: 2024-03-13T17:15:14Z date_updated: 2024-03-13T17:17:37Z department: - _id: '2' - _id: '389' doi: 10.1002/ejoc.202301207 intvolume: ' 27' issue: '8' keyword: - Organic Chemistry - Physical and Theoretical Chemistry language: - iso: eng publication: European Journal of Organic Chemistry publication_identifier: issn: - 1434-193X - 1099-0690 publication_status: published publisher: Wiley status: public title: A Comparative Kinetic and Computational Investigation of the Carbon‐Sulfur Cross Coupling of Potassium Thioacetate and 2‐Bromo Thiophene Using Palladium/Bisphosphine Complexes type: journal_article user_id: '53339' volume: 27 year: '2024' ... --- _id: '52572' abstract: - lang: eng text: A series of substituted ferrocenyl boron derivatives was synthesized. The oxidation of the ferrocenyl unit resulted in a significant increase of the boron‐centered Lewis acidity. The neutral and cationic Lewis acids were characterized by NMR‐spectroscopy, crystal structure analysis and by computational methods. The new Lewis acids were then applied in the Meinwald rearrangement of epoxides, predominantly furnishing aldehydes as the kinetic products. author: - first_name: Laura full_name: Köring, Laura last_name: Köring - first_name: Bernhard full_name: Birenheide, Bernhard last_name: Birenheide - first_name: Felix full_name: Krämer, Felix last_name: Krämer - first_name: Jonas O. full_name: Wenzel, Jonas O. last_name: Wenzel - first_name: Roland full_name: Schoch, Roland id: '48467' last_name: Schoch orcid: 0000-0003-2061-7289 - first_name: Martin full_name: Brehm, Martin id: '100167' last_name: Brehm - first_name: Frank full_name: Breher, Frank last_name: Breher - first_name: Jan full_name: Paradies, Jan id: '53339' last_name: Paradies orcid: 0000-0002-3698-668X citation: ama: Köring L, Birenheide B, Krämer F, et al. Synthesis of Ferrocenyl Boranes and their Application as Lewis Acids in Epoxide Rearrangements. European Journal of Inorganic Chemistry. Published online 2024. doi:10.1002/ejic.202400057 apa: Köring, L., Birenheide, B., Krämer, F., Wenzel, J. O., Schoch, R., Brehm, M., Breher, F., & Paradies, J. (2024). Synthesis of Ferrocenyl Boranes and their Application as Lewis Acids in Epoxide Rearrangements. European Journal of Inorganic Chemistry. https://doi.org/10.1002/ejic.202400057 bibtex: '@article{Köring_Birenheide_Krämer_Wenzel_Schoch_Brehm_Breher_Paradies_2024, title={Synthesis of Ferrocenyl Boranes and their Application as Lewis Acids in Epoxide Rearrangements}, DOI={10.1002/ejic.202400057}, journal={European Journal of Inorganic Chemistry}, publisher={Wiley}, author={Köring, Laura and Birenheide, Bernhard and Krämer, Felix and Wenzel, Jonas O. and Schoch, Roland and Brehm, Martin and Breher, Frank and Paradies, Jan}, year={2024} }' chicago: Köring, Laura, Bernhard Birenheide, Felix Krämer, Jonas O. Wenzel, Roland Schoch, Martin Brehm, Frank Breher, and Jan Paradies. “Synthesis of Ferrocenyl Boranes and Their Application as Lewis Acids in Epoxide Rearrangements.” European Journal of Inorganic Chemistry, 2024. https://doi.org/10.1002/ejic.202400057. ieee: 'L. Köring et al., “Synthesis of Ferrocenyl Boranes and their Application as Lewis Acids in Epoxide Rearrangements,” European Journal of Inorganic Chemistry, 2024, doi: 10.1002/ejic.202400057.' mla: Köring, Laura, et al. “Synthesis of Ferrocenyl Boranes and Their Application as Lewis Acids in Epoxide Rearrangements.” European Journal of Inorganic Chemistry, Wiley, 2024, doi:10.1002/ejic.202400057. short: L. Köring, B. Birenheide, F. Krämer, J.O. Wenzel, R. Schoch, M. Brehm, F. Breher, J. Paradies, European Journal of Inorganic Chemistry (2024). date_created: 2024-03-14T07:09:09Z date_updated: 2024-03-14T07:10:37Z department: - _id: '2' - _id: '389' doi: 10.1002/ejic.202400057 keyword: - Inorganic Chemistry language: - iso: eng publication: European Journal of Inorganic Chemistry publication_identifier: issn: - 1434-1948 - 1099-0682 publication_status: published publisher: Wiley status: public title: Synthesis of Ferrocenyl Boranes and their Application as Lewis Acids in Epoxide Rearrangements type: journal_article user_id: '53339' year: '2024' ... --- _id: '56075' abstract: - lang: eng text: An isostructural series of FeII, FeIII, and Fe(IV)complexes [Fe(ImP)2]0/+/2+ utilizing the ImP 1,1′-(1,3-phenylene)-bis(3-methyl-1-imidazol-2-ylidene) ligand, combining N-heterocy-clic carbenes and cyclometalating functions, is presented. The strong donor motif stabilizes the high-valent Fe(IV) oxidation state yet keeps the FeII oxidation state accessible from the parent Fe(III)compound. Chemical oxidation of [Fe(ImP)2]+ yields stable [FeIV(ImP)2]2+. In contrast, [FeII(ImP)2]0, obtained by reduction,is highly sensitive toward oxygen. Exhaustive ground state characterization by single-crystal X-ray diffraction, 1H NMR,Mössbauer spectroscopy, temperature-dependent magnetic measurements, a combination of X-ray absorption near edge structureand valence-to-core, as well as core-to-core X-ray emission spectroscopy, complemented by detailed density functional theory (DFT) analysis, reveals that the three complexes[Fe(ImP)2]0/+/2+ can be unequivocally attributed to low-spin d6, d5, and d4 complexes. The excited state landscape of the Fe(II) and Fe(IV) complexes is characterized by short-lived 3MLCT and 3LMCT states, with lifetimes of 5.1 and 1.4 ps, respectively. In the FeII-compound, an energetically low-lying MC state leads to fast deactivation of the MLCT state. The distorted square-pyramidal state, where one carbene is dissociated, can not only relax into the ground state, but also into a singlet dissociated state. Its formation was investigated with time-dependent optical spectroscopy, while insights into its structure were gained by NMR spectroscopy. author: - first_name: Jakob full_name: Steube, Jakob id: '40342' last_name: Steube orcid: 0000-0003-3178-4429 - first_name: Lorena full_name: Fritsch, Lorena id: '44418' last_name: Fritsch - first_name: Ayla full_name: Kruse, Ayla last_name: Kruse - first_name: Olga S. full_name: Bokareva, Olga S. last_name: Bokareva - first_name: Serhiy full_name: Demeshko, Serhiy last_name: Demeshko - first_name: Hossam full_name: Elgabarty, Hossam id: '60250' last_name: Elgabarty orcid: 0000-0002-4945-1481 - first_name: Roland full_name: Schoch, Roland id: '48467' last_name: Schoch orcid: 0000-0003-2061-7289 - first_name: Mohammad full_name: Alaraby, Mohammad last_name: Alaraby - first_name: Hans full_name: Egold, Hans id: '101' last_name: Egold - first_name: Bastian Johannes full_name: Bracht, Bastian Johannes id: '86707' last_name: Bracht - first_name: Lennart full_name: Schmitz, Lennart id: '53140' last_name: Schmitz - first_name: Stephan full_name: Hohloch, Stephan last_name: Hohloch - first_name: Thomas D. full_name: Kühne, Thomas D. last_name: Kühne - first_name: Franc full_name: Meyer, Franc last_name: Meyer - first_name: Oliver full_name: Kühn, Oliver last_name: Kühn - first_name: Stefan full_name: Lochbrunner, Stefan last_name: Lochbrunner - first_name: Matthias full_name: Bauer, Matthias id: '47241' last_name: Bauer orcid: 0000-0002-9294-6076 citation: ama: Steube J, Fritsch L, Kruse A, et al. Isostructural Series of a Cyclometalated Iron Complex in Three Oxidation States. Inorganic Chemistry. Published online 2024. doi:10.1021/acs.inorgchem.4c02576 apa: Steube, J., Fritsch, L., Kruse, A., Bokareva, O. S., Demeshko, S., Elgabarty, H., Schoch, R., Alaraby, M., Egold, H., Bracht, B. J., Schmitz, L., Hohloch, S., Kühne, T. D., Meyer, F., Kühn, O., Lochbrunner, S., & Bauer, M. (2024). Isostructural Series of a Cyclometalated Iron Complex in Three Oxidation States. Inorganic Chemistry. https://doi.org/10.1021/acs.inorgchem.4c02576 bibtex: '@article{Steube_Fritsch_Kruse_Bokareva_Demeshko_Elgabarty_Schoch_Alaraby_Egold_Bracht_et al._2024, title={Isostructural Series of a Cyclometalated Iron Complex in Three Oxidation States}, DOI={10.1021/acs.inorgchem.4c02576}, journal={Inorganic Chemistry}, publisher={American Chemical Society (ACS)}, author={Steube, Jakob and Fritsch, Lorena and Kruse, Ayla and Bokareva, Olga S. and Demeshko, Serhiy and Elgabarty, Hossam and Schoch, Roland and Alaraby, Mohammad and Egold, Hans and Bracht, Bastian Johannes and et al.}, year={2024} }' chicago: Steube, Jakob, Lorena Fritsch, Ayla Kruse, Olga S. Bokareva, Serhiy Demeshko, Hossam Elgabarty, Roland Schoch, et al. “Isostructural Series of a Cyclometalated Iron Complex in Three Oxidation States.” Inorganic Chemistry, 2024. https://doi.org/10.1021/acs.inorgchem.4c02576. ieee: 'J. Steube et al., “Isostructural Series of a Cyclometalated Iron Complex in Three Oxidation States,” Inorganic Chemistry, 2024, doi: 10.1021/acs.inorgchem.4c02576.' mla: Steube, Jakob, et al. “Isostructural Series of a Cyclometalated Iron Complex in Three Oxidation States.” Inorganic Chemistry, American Chemical Society (ACS), 2024, doi:10.1021/acs.inorgchem.4c02576. short: J. Steube, L. Fritsch, A. Kruse, O.S. Bokareva, S. Demeshko, H. Elgabarty, R. Schoch, M. Alaraby, H. Egold, B.J. Bracht, L. Schmitz, S. Hohloch, T.D. Kühne, F. Meyer, O. Kühn, S. Lochbrunner, M. Bauer, Inorganic Chemistry (2024). date_created: 2024-09-05T11:34:20Z date_updated: 2025-08-15T12:17:35Z department: - _id: '306' doi: 10.1021/acs.inorgchem.4c02576 keyword: - Photo language: - iso: eng publication: Inorganic Chemistry publication_identifier: issn: - 0020-1669 - 1520-510X publication_status: published publisher: American Chemical Society (ACS) status: public title: Isostructural Series of a Cyclometalated Iron Complex in Three Oxidation States type: journal_article user_id: '48467' year: '2024' ... --- _id: '52346' abstract: - lang: eng text: Promising cathode materials for fluoride-ion batteries (FIBs) are 3d transition metal containing oxides with Ruddlesden-Popper-type structure. So far, multi-elemental compositions were not investigated, but could alternate electrochemical performance similar to what has been found for cathode materials for lithium-ion batteries. Within this study, we investigate RP type La2Ni0.75Co0.25O4.08 as an intercalation-based active cathode material for all-solid-state FIBs. We determine the structural changes of La2Ni0.75Co0.25O4.08 during fluoride intercalation / de-intercalation by ex-situ X-ray diffraction, which showed that F- insertion leads to transformation of the parent phase to three different phases. Changes in Ni and Co oxidation states and coordination environment were examined by X-ray absorption spectroscopy and magnetic measurements in order to understand the complex reaction behaviour of the phases in detail, showing that the two transition metals behave differently in the charging and discharging process. Under optimized operating conditions, a cycle life of 120 cycles at a critical cut-off capacity of 40 mAh g-1 against Pb/PbF2 was obtained, which is one of the highest observed for intercalation electrode materials in FIBs so far. The average Coulombic efficiencies ranged from 85% to 90%. Thus, La2Ni0.75Co0.25O4.08 could be a promising candidate for cycling-stable high-energy cathode materials for all-solid-state FIBs author: - first_name: Vanita full_name: Vanita, Vanita last_name: Vanita - first_name: Aamir Iqbal full_name: Waidha, Aamir Iqbal last_name: Waidha - first_name: Sami full_name: Vasala, Sami last_name: Vasala - first_name: Pascal full_name: Puphal, Pascal last_name: Puphal - first_name: Roland full_name: Schoch, Roland id: '48467' last_name: Schoch orcid: 0000-0003-2061-7289 - first_name: Pieter full_name: Glatzel, Pieter last_name: Glatzel - first_name: Matthias full_name: Bauer, Matthias id: '47241' last_name: Bauer orcid: 0000-0002-9294-6076 - first_name: Oliver full_name: Clemens, Oliver last_name: Clemens citation: ama: Vanita V, Waidha AI, Vasala S, et al. Insights into the First Multi-Transition-Metal Containing Ruddlesden Popper-Type Cathode for all-solid-state Fluoride Ion Batteries. Journal of Materials Chemistry A. 2024;(12). doi:10.1039/d4ta00704b apa: Vanita, V., Waidha, A. I., Vasala, S., Puphal, P., Schoch, R., Glatzel, P., Bauer, M., & Clemens, O. (2024). Insights into the First Multi-Transition-Metal Containing Ruddlesden Popper-Type Cathode for all-solid-state Fluoride Ion Batteries. Journal of Materials Chemistry A, 12. https://doi.org/10.1039/d4ta00704b bibtex: '@article{Vanita_Waidha_Vasala_Puphal_Schoch_Glatzel_Bauer_Clemens_2024, title={Insights into the First Multi-Transition-Metal Containing Ruddlesden Popper-Type Cathode for all-solid-state Fluoride Ion Batteries}, DOI={10.1039/d4ta00704b}, number={12}, journal={Journal of Materials Chemistry A}, publisher={Royal Society of Chemistry (RSC)}, author={Vanita, Vanita and Waidha, Aamir Iqbal and Vasala, Sami and Puphal, Pascal and Schoch, Roland and Glatzel, Pieter and Bauer, Matthias and Clemens, Oliver}, year={2024} }' chicago: Vanita, Vanita, Aamir Iqbal Waidha, Sami Vasala, Pascal Puphal, Roland Schoch, Pieter Glatzel, Matthias Bauer, and Oliver Clemens. “Insights into the First Multi-Transition-Metal Containing Ruddlesden Popper-Type Cathode for All-Solid-State Fluoride Ion Batteries.” Journal of Materials Chemistry A, no. 12 (2024). https://doi.org/10.1039/d4ta00704b. ieee: 'V. Vanita et al., “Insights into the First Multi-Transition-Metal Containing Ruddlesden Popper-Type Cathode for all-solid-state Fluoride Ion Batteries,” Journal of Materials Chemistry A, no. 12, 2024, doi: 10.1039/d4ta00704b.' mla: Vanita, Vanita, et al. “Insights into the First Multi-Transition-Metal Containing Ruddlesden Popper-Type Cathode for All-Solid-State Fluoride Ion Batteries.” Journal of Materials Chemistry A, no. 12, Royal Society of Chemistry (RSC), 2024, doi:10.1039/d4ta00704b. short: V. Vanita, A.I. Waidha, S. Vasala, P. Puphal, R. Schoch, P. Glatzel, M. Bauer, O. Clemens, Journal of Materials Chemistry A (2024). date_created: 2024-03-07T10:01:09Z date_updated: 2025-08-15T12:50:31Z department: - _id: '306' doi: 10.1039/d4ta00704b issue: '12' keyword: - Xray language: - iso: eng publication: Journal of Materials Chemistry A publication_identifier: issn: - 2050-7488 - 2050-7496 publication_status: published publisher: Royal Society of Chemistry (RSC) status: public title: Insights into the First Multi-Transition-Metal Containing Ruddlesden Popper-Type Cathode for all-solid-state Fluoride Ion Batteries type: journal_article user_id: '48467' year: '2024' ... --- _id: '54969' abstract: - lang: eng text: This work presents a new and facile route for the preparation of iron oxide-based catalysts supported on alumina, which enables the targeted synthesis of catalysts with an increased amount of isolated tetrahedrally coordinated iron centers compared to a conventional impregnation procedure, and therefore leads to an increase in activity for CO oxidation reaction. By a multi-step impregnation–calcination protocol, the catalysts were synthesized with iron loadings of between 1 and 10 wt%, and their catalytic activity was then compared with a 10 wt% loaded catalyst prepared by conventional single impregnation. With a loading of 8 wt%, the presented catalysts showed an improved catalytic activity regarding light-off and full conversion temperatures compared to this reference. Through the application of several analytical methods (PXRD, PDF, DRUVS, SEM, XAFS), the improved catalytic activity can be correlated with an increased amount of isolated iron centers and a significantly reduced fraction of agglomerates or particles. article_number: '416' article_type: original author: - first_name: Steffen full_name: Schlicher, Steffen last_name: Schlicher - first_name: Roland full_name: Schoch, Roland id: '48467' last_name: Schoch orcid: 0000-0003-2061-7289 - first_name: Nils full_name: Prinz, Nils last_name: Prinz - first_name: Mirijam full_name: Zobel, Mirijam last_name: Zobel - first_name: Matthias full_name: Bauer, Matthias id: '47241' last_name: Bauer orcid: 0000-0002-9294-6076 citation: ama: Schlicher S, Schoch R, Prinz N, Zobel M, Bauer M. New and Facile Preparation Method for Highly Active Iron Oxide Catalysts for CO Oxidation. Catalysts. 2024;14(7). doi:10.3390/catal14070416 apa: Schlicher, S., Schoch, R., Prinz, N., Zobel, M., & Bauer, M. (2024). New and Facile Preparation Method for Highly Active Iron Oxide Catalysts for CO Oxidation. Catalysts, 14(7), Article 416. https://doi.org/10.3390/catal14070416 bibtex: '@article{Schlicher_Schoch_Prinz_Zobel_Bauer_2024, title={New and Facile Preparation Method for Highly Active Iron Oxide Catalysts for CO Oxidation}, volume={14}, DOI={10.3390/catal14070416}, number={7416}, journal={Catalysts}, publisher={MDPI AG}, author={Schlicher, Steffen and Schoch, Roland and Prinz, Nils and Zobel, Mirijam and Bauer, Matthias}, year={2024} }' chicago: Schlicher, Steffen, Roland Schoch, Nils Prinz, Mirijam Zobel, and Matthias Bauer. “New and Facile Preparation Method for Highly Active Iron Oxide Catalysts for CO Oxidation.” Catalysts 14, no. 7 (2024). https://doi.org/10.3390/catal14070416. ieee: 'S. Schlicher, R. Schoch, N. Prinz, M. Zobel, and M. Bauer, “New and Facile Preparation Method for Highly Active Iron Oxide Catalysts for CO Oxidation,” Catalysts, vol. 14, no. 7, Art. no. 416, 2024, doi: 10.3390/catal14070416.' mla: Schlicher, Steffen, et al. “New and Facile Preparation Method for Highly Active Iron Oxide Catalysts for CO Oxidation.” Catalysts, vol. 14, no. 7, 416, MDPI AG, 2024, doi:10.3390/catal14070416. short: S. Schlicher, R. Schoch, N. Prinz, M. Zobel, M. Bauer, Catalysts 14 (2024). date_created: 2024-07-02T07:10:14Z date_updated: 2025-08-15T12:50:52Z department: - _id: '306' doi: 10.3390/catal14070416 intvolume: ' 14' issue: '7' keyword: - Catalysis language: - iso: eng publication: Catalysts publication_identifier: issn: - 2073-4344 publication_status: published publisher: MDPI AG status: public title: New and Facile Preparation Method for Highly Active Iron Oxide Catalysts for CO Oxidation type: journal_article user_id: '48467' volume: 14 year: '2024' ... --- _id: '52345' abstract: - lang: eng text: Photoactive chromium(III) complexes saw a conceptual breakthrough with the discovery of the prototypical molecular ruby mer-[Cr(ddpd)2]3+ (ddpd = N,N′-dimethyl-N,N′-dipyridin-2-ylpyridine-2,6-diamine), which shows intense long-lived near-infrared (NIR) phosphorescence from metal-centered spin-flip states. In contrast to the numerous studies on chromium(III) photophysics, only 10 luminescent molybdenum(III) complexes have been reported so far. Here, we present the synthesis and characterization of mer-MoX3(ddpd) (1, X = Cl; 2, X = Br) and cisfac-[Mo(ddpd)2]3+ (cisfac-[3]3+), an isomeric heavy homologue of the prototypical molecular ruby. For cisfac-[3]3+, we found strong zero-field splitting using magnetic susceptibility measurements and electron paramagnetic resonance spectroscopy. Electronic spectra covering the spin-forbidden transitions show that the spin-flip states in mer-1, mer-2, and cisfac-[3]3+ are much lower in energy than those in comparable chromium(III) compounds. While all three complexes show weak spin-flip phosphorescence in NIR-II, the emission of cisfac-[3]3+ peaking at 1550 nm is particularly low in energy. Femtosecond transient absorption spectroscopy reveals a short excited-state lifetime of 1.4 ns, 6 orders of magnitude shorter than that of mer-[Cr(ddpd)2]3+. Using density functional theory and ab initio multireference calculations, we break down the reasons for this disparity and derive principles for the design of future stable photoactive molybdenum(III) complexes. article_type: original author: - first_name: Winald R. full_name: Kitzmann, Winald R. last_name: Kitzmann - first_name: David full_name: Hunger, David last_name: Hunger - first_name: Antti-Pekka M. full_name: Reponen, Antti-Pekka M. last_name: Reponen - first_name: Christoph full_name: Förster, Christoph last_name: Förster - first_name: Roland full_name: Schoch, Roland id: '48467' last_name: Schoch orcid: 0000-0003-2061-7289 - first_name: Matthias full_name: Bauer, Matthias id: '47241' last_name: Bauer orcid: 0000-0002-9294-6076 - first_name: Sascha full_name: Feldmann, Sascha last_name: Feldmann - first_name: Joris full_name: van Slageren, Joris last_name: van Slageren - first_name: Katja full_name: Heinze, Katja last_name: Heinze citation: ama: Kitzmann WR, Hunger D, Reponen A-PM, et al. Electronic Structure and Excited-State Dynamics of the NIR-II Emissive Molybdenum(III) Analogue to the Molecular Ruby. Inorganic Chemistry. 2023;62(39):15797-15808. doi:10.1021/acs.inorgchem.3c02186 apa: Kitzmann, W. R., Hunger, D., Reponen, A.-P. M., Förster, C., Schoch, R., Bauer, M., Feldmann, S., van Slageren, J., & Heinze, K. (2023). Electronic Structure and Excited-State Dynamics of the NIR-II Emissive Molybdenum(III) Analogue to the Molecular Ruby. Inorganic Chemistry, 62(39), 15797–15808. https://doi.org/10.1021/acs.inorgchem.3c02186 bibtex: '@article{Kitzmann_Hunger_Reponen_Förster_Schoch_Bauer_Feldmann_van Slageren_Heinze_2023, title={Electronic Structure and Excited-State Dynamics of the NIR-II Emissive Molybdenum(III) Analogue to the Molecular Ruby}, volume={62}, DOI={10.1021/acs.inorgchem.3c02186}, number={39}, journal={Inorganic Chemistry}, publisher={American Chemical Society (ACS)}, author={Kitzmann, Winald R. and Hunger, David and Reponen, Antti-Pekka M. and Förster, Christoph and Schoch, Roland and Bauer, Matthias and Feldmann, Sascha and van Slageren, Joris and Heinze, Katja}, year={2023}, pages={15797–15808} }' chicago: 'Kitzmann, Winald R., David Hunger, Antti-Pekka M. Reponen, Christoph Förster, Roland Schoch, Matthias Bauer, Sascha Feldmann, Joris van Slageren, and Katja Heinze. “Electronic Structure and Excited-State Dynamics of the NIR-II Emissive Molybdenum(III) Analogue to the Molecular Ruby.” Inorganic Chemistry 62, no. 39 (2023): 15797–808. https://doi.org/10.1021/acs.inorgchem.3c02186.' ieee: 'W. R. Kitzmann et al., “Electronic Structure and Excited-State Dynamics of the NIR-II Emissive Molybdenum(III) Analogue to the Molecular Ruby,” Inorganic Chemistry, vol. 62, no. 39, pp. 15797–15808, 2023, doi: 10.1021/acs.inorgchem.3c02186.' mla: Kitzmann, Winald R., et al. “Electronic Structure and Excited-State Dynamics of the NIR-II Emissive Molybdenum(III) Analogue to the Molecular Ruby.” Inorganic Chemistry, vol. 62, no. 39, American Chemical Society (ACS), 2023, pp. 15797–808, doi:10.1021/acs.inorgchem.3c02186. short: W.R. Kitzmann, D. Hunger, A.-P.M. Reponen, C. Förster, R. Schoch, M. Bauer, S. Feldmann, J. van Slageren, K. Heinze, Inorganic Chemistry 62 (2023) 15797–15808. date_created: 2024-03-07T09:57:30Z date_updated: 2024-03-07T10:02:58Z department: - _id: '306' doi: 10.1021/acs.inorgchem.3c02186 intvolume: ' 62' issue: '39' keyword: - Inorganic Chemistry - Physical and Theoretical Chemistry language: - iso: eng page: 15797-15808 publication: Inorganic Chemistry publication_identifier: issn: - 0020-1669 - 1520-510X publication_status: published publisher: American Chemical Society (ACS) status: public title: Electronic Structure and Excited-State Dynamics of the NIR-II Emissive Molybdenum(III) Analogue to the Molecular Ruby type: journal_article user_id: '48467' volume: 62 year: '2023' ... --- _id: '46481' abstract: - lang: eng text: AbstractAlthough iron is a dream candidate to substitute noble metals in photoactive complexes, realization of emissive and photoactive iron compounds is demanding due to the fast deactivation of their charge-transfer states. Emissive iron compounds are scarce and dual emission has not been observed before. Here we report the FeIII complex [Fe(ImP)2][PF6] (HImP = 1,1′-(1,3-phenylene)bis(3-methyl-1-imidazol-2-ylidene)), showing a Janus-type dual emission from ligand-to-metal charge transfer (LMCT)- and metal-to-ligand charge transfer (MLCT)-dominated states. This behaviour is achieved by a ligand design that combines four N-heterocyclic carbenes with two cyclometalating aryl units. The low-lying π* levels of the cyclometalating units lead to energetically accessible MLCT states that cannot evolve into LMCT states. With a lifetime of 4.6 ns, the strongly reducing and oxidizing MLCT-dominated state can initiate electron transfer reactions, which could constitute a basis for future applications of iron in photoredox catalysis. author: - first_name: Jakob full_name: Steube, Jakob id: '40342' last_name: Steube orcid: 0000-0003-3178-4429 - first_name: Ayla full_name: Kruse, Ayla last_name: Kruse - first_name: Olga S. full_name: Bokareva, Olga S. last_name: Bokareva - first_name: Thomas full_name: Reuter, Thomas last_name: Reuter - first_name: Serhiy full_name: Demeshko, Serhiy last_name: Demeshko - first_name: Roland full_name: Schoch, Roland id: '48467' last_name: Schoch orcid: 0000-0003-2061-7289 - first_name: Miguel A. full_name: Argüello Cordero, Miguel A. last_name: Argüello Cordero - first_name: Athul full_name: Krishna, Athul last_name: Krishna - first_name: Stephan full_name: Hohloch, Stephan last_name: Hohloch - first_name: Franc full_name: Meyer, Franc last_name: Meyer - first_name: Katja full_name: Heinze, Katja last_name: Heinze - first_name: Oliver full_name: Kühn, Oliver last_name: Kühn - first_name: Stefan full_name: Lochbrunner, Stefan last_name: Lochbrunner - first_name: Matthias full_name: Bauer, Matthias id: '47241' last_name: Bauer orcid: 0000-0002-9294-6076 citation: ama: Steube J, Kruse A, Bokareva OS, et al. Janus-type emission from a cyclometalated iron(iii) complex. Nature Chemistry. 2023;15(4):468-474. doi:10.1038/s41557-023-01137-w apa: Steube, J., Kruse, A., Bokareva, O. S., Reuter, T., Demeshko, S., Schoch, R., Argüello Cordero, M. A., Krishna, A., Hohloch, S., Meyer, F., Heinze, K., Kühn, O., Lochbrunner, S., & Bauer, M. (2023). Janus-type emission from a cyclometalated iron(iii) complex. Nature Chemistry, 15(4), 468–474. https://doi.org/10.1038/s41557-023-01137-w bibtex: '@article{Steube_Kruse_Bokareva_Reuter_Demeshko_Schoch_Argüello Cordero_Krishna_Hohloch_Meyer_et al._2023, title={Janus-type emission from a cyclometalated iron(iii) complex}, volume={15}, DOI={10.1038/s41557-023-01137-w}, number={4}, journal={Nature Chemistry}, publisher={Springer Science and Business Media LLC}, author={Steube, Jakob and Kruse, Ayla and Bokareva, Olga S. and Reuter, Thomas and Demeshko, Serhiy and Schoch, Roland and Argüello Cordero, Miguel A. and Krishna, Athul and Hohloch, Stephan and Meyer, Franc and et al.}, year={2023}, pages={468–474} }' chicago: 'Steube, Jakob, Ayla Kruse, Olga S. Bokareva, Thomas Reuter, Serhiy Demeshko, Roland Schoch, Miguel A. Argüello Cordero, et al. “Janus-Type Emission from a Cyclometalated Iron(Iii) Complex.” Nature Chemistry 15, no. 4 (2023): 468–74. https://doi.org/10.1038/s41557-023-01137-w.' ieee: 'J. Steube et al., “Janus-type emission from a cyclometalated iron(iii) complex,” Nature Chemistry, vol. 15, no. 4, pp. 468–474, 2023, doi: 10.1038/s41557-023-01137-w.' mla: Steube, Jakob, et al. “Janus-Type Emission from a Cyclometalated Iron(Iii) Complex.” Nature Chemistry, vol. 15, no. 4, Springer Science and Business Media LLC, 2023, pp. 468–74, doi:10.1038/s41557-023-01137-w. short: J. Steube, A. Kruse, O.S. Bokareva, T. Reuter, S. Demeshko, R. Schoch, M.A. Argüello Cordero, A. Krishna, S. Hohloch, F. Meyer, K. Heinze, O. Kühn, S. Lochbrunner, M. Bauer, Nature Chemistry 15 (2023) 468–474. date_created: 2023-08-11T19:57:32Z date_updated: 2024-09-05T11:44:07Z department: - _id: '306' doi: 10.1038/s41557-023-01137-w intvolume: ' 15' issue: '4' keyword: - General Chemical Engineering - General Chemistry language: - iso: eng page: 468-474 publication: Nature Chemistry publication_identifier: issn: - 1755-4330 - 1755-4349 publication_status: published publisher: Springer Science and Business Media LLC status: public title: Janus-type emission from a cyclometalated iron(iii) complex type: journal_article user_id: '48467' volume: 15 year: '2023' ... --- _id: '40981' abstract: - lang: eng text: Room temperature sodium-sulfur (RT Na-S) batteries are considered potential candidates for stationary power storage applications due to their low cost, broad active material availability and low toxicity. Challenges, such as high volume expansion of the S-cathode upon discharge, low electronic conductivity of S as active material and herewith limited rate capability as well as the shuttling of polysulfides (PSs) as intermediates often impede the cycle stability and practical application of Na-S batteries. Sulfurized poly(acrylonitrile) (SPAN) inherently inhibits the shuttling of PSs and shows compatibility with carbonate-based electrolytes, however, its exact redox mechanism remained unclear to date. Herein, we implement a commercially available and simple electrolyte into the Na-SPAN cell chemistry and demonstrate its high rate and cycle stability. Through the application of in situ techniques utilizing electronic impedance spectroscopy (EIS) and X-ray absorption spectroscopy (XAS) at different depths of charge and discharge, an insight into SPAN’s redox chemistry is obtained. article_number: '010526' author: - first_name: Julian full_name: Kappler, Julian last_name: Kappler - first_name: Güldeniz full_name: Tonbul, Güldeniz id: '89054' last_name: Tonbul orcid: 0000-0002-0999-9995 - first_name: Roland full_name: Schoch, Roland id: '48467' last_name: Schoch orcid: 0000-0003-2061-7289 - first_name: Saravanakumar full_name: Murugan, Saravanakumar last_name: Murugan - first_name: Michał full_name: Nowakowski, Michał id: '78878' last_name: Nowakowski orcid: 0000-0002-3734-7011 - first_name: Pia Lena full_name: Lange, Pia Lena last_name: Lange - first_name: Sina Vanessa full_name: Klostermann, Sina Vanessa last_name: Klostermann - first_name: Matthias full_name: Bauer, Matthias id: '47241' last_name: Bauer orcid: 0000-0002-9294-6076 - first_name: Thomas full_name: Schleid, Thomas last_name: Schleid - first_name: Johannes full_name: Kästner, Johannes last_name: Kästner - first_name: Michael Rudolf full_name: Buchmeiser, Michael Rudolf last_name: Buchmeiser citation: ama: Kappler J, Tonbul G, Schoch R, et al. Understanding the Redox Mechanism of Sulfurized Poly(acrylonitrile) as Highly Rate and Cycle Stable Cathode Material for Sodium-Sulfur Batteries. Journal of The Electrochemical Society. 2023;170(1). doi:10.1149/1945-7111/acb2fa apa: Kappler, J., Tonbul, G., Schoch, R., Murugan, S., Nowakowski, M., Lange, P. L., Klostermann, S. V., Bauer, M., Schleid, T., Kästner, J., & Buchmeiser, M. R. (2023). Understanding the Redox Mechanism of Sulfurized Poly(acrylonitrile) as Highly Rate and Cycle Stable Cathode Material for Sodium-Sulfur Batteries. Journal of The Electrochemical Society, 170(1), Article 010526. https://doi.org/10.1149/1945-7111/acb2fa bibtex: '@article{Kappler_Tonbul_Schoch_Murugan_Nowakowski_Lange_Klostermann_Bauer_Schleid_Kästner_et al._2023, title={Understanding the Redox Mechanism of Sulfurized Poly(acrylonitrile) as Highly Rate and Cycle Stable Cathode Material for Sodium-Sulfur Batteries}, volume={170}, DOI={10.1149/1945-7111/acb2fa}, number={1010526}, journal={Journal of The Electrochemical Society}, publisher={The Electrochemical Society}, author={Kappler, Julian and Tonbul, Güldeniz and Schoch, Roland and Murugan, Saravanakumar and Nowakowski, Michał and Lange, Pia Lena and Klostermann, Sina Vanessa and Bauer, Matthias and Schleid, Thomas and Kästner, Johannes and et al.}, year={2023} }' chicago: Kappler, Julian, Güldeniz Tonbul, Roland Schoch, Saravanakumar Murugan, Michał Nowakowski, Pia Lena Lange, Sina Vanessa Klostermann, et al. “Understanding the Redox Mechanism of Sulfurized Poly(Acrylonitrile) as Highly Rate and Cycle Stable Cathode Material for Sodium-Sulfur Batteries.” Journal of The Electrochemical Society 170, no. 1 (2023). https://doi.org/10.1149/1945-7111/acb2fa. ieee: 'J. Kappler et al., “Understanding the Redox Mechanism of Sulfurized Poly(acrylonitrile) as Highly Rate and Cycle Stable Cathode Material for Sodium-Sulfur Batteries,” Journal of The Electrochemical Society, vol. 170, no. 1, Art. no. 010526, 2023, doi: 10.1149/1945-7111/acb2fa.' mla: Kappler, Julian, et al. “Understanding the Redox Mechanism of Sulfurized Poly(Acrylonitrile) as Highly Rate and Cycle Stable Cathode Material for Sodium-Sulfur Batteries.” Journal of The Electrochemical Society, vol. 170, no. 1, 010526, The Electrochemical Society, 2023, doi:10.1149/1945-7111/acb2fa. short: J. Kappler, G. Tonbul, R. Schoch, S. Murugan, M. Nowakowski, P.L. Lange, S.V. Klostermann, M. Bauer, T. Schleid, J. Kästner, M.R. Buchmeiser, Journal of The Electrochemical Society 170 (2023). date_created: 2023-01-30T16:08:15Z date_updated: 2023-05-03T08:27:13Z department: - _id: '35' - _id: '306' doi: 10.1149/1945-7111/acb2fa intvolume: ' 170' issue: '1' keyword: - Materials Chemistry - Electrochemistry - Surfaces - Coatings and Films - Condensed Matter Physics - Renewable Energy - Sustainability and the Environment - Electronic - Optical and Magnetic Materials language: - iso: eng publication: Journal of The Electrochemical Society publication_identifier: issn: - 0013-4651 - 1945-7111 publication_status: published publisher: The Electrochemical Society status: public title: Understanding the Redox Mechanism of Sulfurized Poly(acrylonitrile) as Highly Rate and Cycle Stable Cathode Material for Sodium-Sulfur Batteries type: journal_article user_id: '89054' volume: 170 year: '2023' ... --- _id: '52343' abstract: - lang: eng text: Improved enantioselectivity in the 1,2-addition was observed for chiral Rh norbornadiene catalysts immobilized on ordered mesoporous silica with small pores. Confinement effects were rationalized by experimental and computational studies. article_type: original author: - first_name: Manuel full_name: Kirchhof, Manuel last_name: Kirchhof - first_name: Katrin full_name: Gugeler, Katrin last_name: Gugeler - first_name: Ann-Katrin full_name: Beurer, Ann-Katrin last_name: Beurer - first_name: Felix Richard full_name: Fischer, Felix Richard last_name: Fischer - first_name: Derman full_name: Batman, Derman last_name: Batman - first_name: Soeren M. full_name: Bauch, Soeren M. last_name: Bauch - first_name: Sofia full_name: Kolin, Sofia last_name: Kolin - first_name: Elliot full_name: Nicholas, Elliot last_name: Nicholas - first_name: Roland full_name: Schoch, Roland id: '48467' last_name: Schoch orcid: 0000-0003-2061-7289 - first_name: Charlotte full_name: Vogler, Charlotte last_name: Vogler - first_name: Shravan R. full_name: Kousik, Shravan R. last_name: Kousik - first_name: Anna full_name: Zens, Anna last_name: Zens - first_name: Bernd full_name: Plietker, Bernd last_name: Plietker - first_name: Petia full_name: Atanasova, Petia last_name: Atanasova - first_name: Stefan full_name: Naumann, Stefan last_name: Naumann - first_name: Matthias full_name: Bauer, Matthias id: '47241' last_name: Bauer orcid: 0000-0002-9294-6076 - first_name: Johanna R. full_name: Bruckner, Johanna R. last_name: Bruckner - first_name: Yvonne full_name: Traa, Yvonne last_name: Traa - first_name: Johannes full_name: Kästner, Johannes last_name: Kästner - first_name: Sabine full_name: Laschat, Sabine last_name: Laschat citation: ama: 'Kirchhof M, Gugeler K, Beurer A-K, et al. Tethering chiral Rh diene complexes inside mesoporous solids: experimental and theoretical study of substituent, pore and linker effects on asymmetric catalysis. Catalysis Science Technology. 2023;13(12):3709-3724. doi:10.1039/d3cy00381g' apa: 'Kirchhof, M., Gugeler, K., Beurer, A.-K., Fischer, F. R., Batman, D., Bauch, S. M., Kolin, S., Nicholas, E., Schoch, R., Vogler, C., Kousik, S. R., Zens, A., Plietker, B., Atanasova, P., Naumann, S., Bauer, M., Bruckner, J. R., Traa, Y., Kästner, J., & Laschat, S. (2023). Tethering chiral Rh diene complexes inside mesoporous solids: experimental and theoretical study of substituent, pore and linker effects on asymmetric catalysis. Catalysis Science Technology, 13(12), 3709–3724. https://doi.org/10.1039/d3cy00381g' bibtex: '@article{Kirchhof_Gugeler_Beurer_Fischer_Batman_Bauch_Kolin_Nicholas_Schoch_Vogler_et al._2023, title={Tethering chiral Rh diene complexes inside mesoporous solids: experimental and theoretical study of substituent, pore and linker effects on asymmetric catalysis}, volume={13}, DOI={10.1039/d3cy00381g}, number={12}, journal={Catalysis Science Technology}, publisher={Royal Society of Chemistry (RSC)}, author={Kirchhof, Manuel and Gugeler, Katrin and Beurer, Ann-Katrin and Fischer, Felix Richard and Batman, Derman and Bauch, Soeren M. and Kolin, Sofia and Nicholas, Elliot and Schoch, Roland and Vogler, Charlotte and et al.}, year={2023}, pages={3709–3724} }' chicago: 'Kirchhof, Manuel, Katrin Gugeler, Ann-Katrin Beurer, Felix Richard Fischer, Derman Batman, Soeren M. Bauch, Sofia Kolin, et al. “Tethering Chiral Rh Diene Complexes inside Mesoporous Solids: Experimental and Theoretical Study of Substituent, Pore and Linker Effects on Asymmetric Catalysis.” Catalysis Science Technology 13, no. 12 (2023): 3709–24. https://doi.org/10.1039/d3cy00381g.' ieee: 'M. Kirchhof et al., “Tethering chiral Rh diene complexes inside mesoporous solids: experimental and theoretical study of substituent, pore and linker effects on asymmetric catalysis,” Catalysis Science Technology, vol. 13, no. 12, pp. 3709–3724, 2023, doi: 10.1039/d3cy00381g.' mla: 'Kirchhof, Manuel, et al. “Tethering Chiral Rh Diene Complexes inside Mesoporous Solids: Experimental and Theoretical Study of Substituent, Pore and Linker Effects on Asymmetric Catalysis.” Catalysis Science Technology, vol. 13, no. 12, Royal Society of Chemistry (RSC), 2023, pp. 3709–24, doi:10.1039/d3cy00381g.' short: M. Kirchhof, K. Gugeler, A.-K. Beurer, F.R. Fischer, D. Batman, S.M. Bauch, S. Kolin, E. Nicholas, R. Schoch, C. Vogler, S.R. Kousik, A. Zens, B. Plietker, P. Atanasova, S. Naumann, M. Bauer, J.R. Bruckner, Y. Traa, J. Kästner, S. Laschat, Catalysis Science Technology 13 (2023) 3709–3724. date_created: 2024-03-07T09:12:06Z date_updated: 2025-06-16T09:00:17Z department: - _id: '306' doi: 10.1039/d3cy00381g intvolume: ' 13' issue: '12' keyword: - Catalysis language: - iso: eng page: 3709-3724 publication: Catalysis Science Technology publication_identifier: issn: - 2044-4753 - 2044-4761 publication_status: published publisher: Royal Society of Chemistry (RSC) status: public title: 'Tethering chiral Rh diene complexes inside mesoporous solids: experimental and theoretical study of substituent, pore and linker effects on asymmetric catalysis' type: journal_article user_id: '48467' volume: 13 year: '2023' ... --- _id: '49608' abstract: - lang: eng text: The effects of backbone amine functionalization in three new homoleptic C^N^C type ruthenium(II) complexes bearing a tridentate bis‐imidazole‐2‐ylidene pyridine ligand framework are characterized and studied by single crystal diffraction, electrochemistry, optical spectroscopy and transient absorption spectroscopy in combination with ab initio DFT calculations. Functionalization by dimethylamine groups in 4‐position of the pyridine backbone significantly influences the properties of the complexes as revealed by comparison with the unfunctionalized references. As a result of the amine functionalization, a higher molar absorption coefficient of the MLCT bands, a decreased photoluminescence quantum yield at room temperature together with a shortened excited state lifetime but an improved photostability is observed. Introduction of electron donating and withdrawing groups at the NHC unit modifies the electronic and optical properties, such as the oxidation potential, absorption and emission properties, and the lifetimes of the excited states. author: - first_name: Lorena full_name: Fritsch, Lorena id: '44418' last_name: Fritsch - first_name: Yannik full_name: Vukadinovic, Yannik last_name: Vukadinovic - first_name: Moritz full_name: Lang, Moritz last_name: Lang - first_name: Robert full_name: Naumann, Robert last_name: Naumann - first_name: Maria-Sophie full_name: Bertrams, Maria-Sophie last_name: Bertrams - first_name: Ayla full_name: Kruse, Ayla last_name: Kruse - first_name: Roland full_name: Schoch, Roland id: '48467' last_name: Schoch orcid: 0000-0003-2061-7289 - first_name: Patrick full_name: Müller, Patrick id: '54037' last_name: Müller orcid: 0000-0003-1103-4073 - first_name: Adam full_name: Neuba, Adam last_name: Neuba - first_name: Philipp full_name: Dierks, Philipp last_name: Dierks - first_name: Stefan full_name: Lochbrunner, Stefan last_name: Lochbrunner - first_name: Christoph full_name: Kerzig, Christoph last_name: Kerzig - first_name: Katja full_name: Heinze, Katja last_name: Heinze - first_name: Matthias full_name: Bauer, Matthias id: '47241' last_name: Bauer orcid: 0000-0002-9294-6076 citation: ama: Fritsch L, Vukadinovic Y, Lang M, et al. Chemical and photophysical properties of amine functionalized bis‐NHC‐pyridine‐Ru(II) complexes. ChemPhotoChem. Published online 2023. doi:10.1002/cptc.202300281 apa: Fritsch, L., Vukadinovic, Y., Lang, M., Naumann, R., Bertrams, M.-S., Kruse, A., Schoch, R., Müller, P., Neuba, A., Dierks, P., Lochbrunner, S., Kerzig, C., Heinze, K., & Bauer, M. (2023). Chemical and photophysical properties of amine functionalized bis‐NHC‐pyridine‐Ru(II) complexes. ChemPhotoChem. https://doi.org/10.1002/cptc.202300281 bibtex: '@article{Fritsch_Vukadinovic_Lang_Naumann_Bertrams_Kruse_Schoch_Müller_Neuba_Dierks_et al._2023, title={Chemical and photophysical properties of amine functionalized bis‐NHC‐pyridine‐Ru(II) complexes}, DOI={10.1002/cptc.202300281}, journal={ChemPhotoChem}, publisher={Wiley}, author={Fritsch, Lorena and Vukadinovic, Yannik and Lang, Moritz and Naumann, Robert and Bertrams, Maria-Sophie and Kruse, Ayla and Schoch, Roland and Müller, Patrick and Neuba, Adam and Dierks, Philipp and et al.}, year={2023} }' chicago: Fritsch, Lorena, Yannik Vukadinovic, Moritz Lang, Robert Naumann, Maria-Sophie Bertrams, Ayla Kruse, Roland Schoch, et al. “Chemical and Photophysical Properties of Amine Functionalized Bis‐NHC‐pyridine‐Ru(II) Complexes.” ChemPhotoChem, 2023. https://doi.org/10.1002/cptc.202300281. ieee: 'L. Fritsch et al., “Chemical and photophysical properties of amine functionalized bis‐NHC‐pyridine‐Ru(II) complexes,” ChemPhotoChem, 2023, doi: 10.1002/cptc.202300281.' mla: Fritsch, Lorena, et al. “Chemical and Photophysical Properties of Amine Functionalized Bis‐NHC‐pyridine‐Ru(II) Complexes.” ChemPhotoChem, Wiley, 2023, doi:10.1002/cptc.202300281. short: L. Fritsch, Y. Vukadinovic, M. Lang, R. Naumann, M.-S. Bertrams, A. Kruse, R. Schoch, P. Müller, A. Neuba, P. Dierks, S. Lochbrunner, C. Kerzig, K. Heinze, M. Bauer, ChemPhotoChem (2023). date_created: 2023-12-13T15:09:09Z date_updated: 2025-08-15T13:00:34Z department: - _id: '306' doi: 10.1002/cptc.202300281 keyword: - Photo language: - iso: eng publication: ChemPhotoChem publication_identifier: issn: - 2367-0932 - 2367-0932 publication_status: published publisher: Wiley status: public title: Chemical and photophysical properties of amine functionalized bis‐NHC‐pyridine‐Ru(II) complexes type: journal_article user_id: '48467' year: '2023' ... --- _id: '46548' abstract: - lang: eng text: The use of iron as a replacement for noble metals in photochemical and photophysical applications is challenging due to the typically fast deactivation of short-lived catalytically active states. Recent success of a cyclometalated iron(III) complex utilizing a bis-tridentate ligand motif inspired the use of phenyl-1H-pyrazole as a bidentate ligand. Five complexes using the tris(1-phenylpyrazolato-N,C2)iron(III) complex scaffold are presented. In addition to the parent complex, four derivatives with functionalization in the meta-position of the phenyl ring are thoroughly investigated by single crystal diffractometry, UV-Vis-spectroscopy, and cyclic voltammetry. Advanced X-ray spectroscopy in the form of X-ray absorption and emission spectroscopy allows unique insights into the electronic structure as well as DFT calculations. The ligand design leads to overlapping MLCT and LMCT absorption bands, and emissive behavior is suppressed by low-lying MC states. article_number: '282' author: - first_name: Tanja full_name: Hirschhausen, Tanja last_name: Hirschhausen - first_name: Lorena full_name: Fritsch, Lorena id: '44418' last_name: Fritsch - first_name: Franziska full_name: Lux, Franziska last_name: Lux - first_name: Jakob full_name: Steube, Jakob id: '40342' last_name: Steube orcid: 0000-0003-3178-4429 - first_name: Roland full_name: Schoch, Roland id: '48467' last_name: Schoch orcid: 0000-0003-2061-7289 - first_name: Adam full_name: Neuba, Adam last_name: Neuba - first_name: Hans full_name: Egold, Hans id: '101' last_name: Egold - first_name: Matthias full_name: Bauer, Matthias id: '47241' last_name: Bauer orcid: 0000-0002-9294-6076 citation: ama: Hirschhausen T, Fritsch L, Lux F, et al. Iron(III)-Complexes with N-Phenylpyrazole-Based Ligands. Inorganics. 2023;11(7). doi:10.3390/inorganics11070282 apa: Hirschhausen, T., Fritsch, L., Lux, F., Steube, J., Schoch, R., Neuba, A., Egold, H., & Bauer, M. (2023). Iron(III)-Complexes with N-Phenylpyrazole-Based Ligands. Inorganics, 11(7), Article 282. https://doi.org/10.3390/inorganics11070282 bibtex: '@article{Hirschhausen_Fritsch_Lux_Steube_Schoch_Neuba_Egold_Bauer_2023, title={Iron(III)-Complexes with N-Phenylpyrazole-Based Ligands}, volume={11}, DOI={10.3390/inorganics11070282}, number={7282}, journal={Inorganics}, publisher={MDPI AG}, author={Hirschhausen, Tanja and Fritsch, Lorena and Lux, Franziska and Steube, Jakob and Schoch, Roland and Neuba, Adam and Egold, Hans and Bauer, Matthias}, year={2023} }' chicago: Hirschhausen, Tanja, Lorena Fritsch, Franziska Lux, Jakob Steube, Roland Schoch, Adam Neuba, Hans Egold, and Matthias Bauer. “Iron(III)-Complexes with N-Phenylpyrazole-Based Ligands.” Inorganics 11, no. 7 (2023). https://doi.org/10.3390/inorganics11070282. ieee: 'T. Hirschhausen et al., “Iron(III)-Complexes with N-Phenylpyrazole-Based Ligands,” Inorganics, vol. 11, no. 7, Art. no. 282, 2023, doi: 10.3390/inorganics11070282.' mla: Hirschhausen, Tanja, et al. “Iron(III)-Complexes with N-Phenylpyrazole-Based Ligands.” Inorganics, vol. 11, no. 7, 282, MDPI AG, 2023, doi:10.3390/inorganics11070282. short: T. Hirschhausen, L. Fritsch, F. Lux, J. Steube, R. Schoch, A. Neuba, H. Egold, M. Bauer, Inorganics 11 (2023). date_created: 2023-08-16T14:44:37Z date_updated: 2025-08-15T12:54:21Z doi: 10.3390/inorganics11070282 intvolume: ' 11' issue: '7' keyword: - Photo language: - iso: eng publication: Inorganics publication_identifier: issn: - 2304-6740 publication_status: published publisher: MDPI AG status: public title: Iron(III)-Complexes with N-Phenylpyrazole-Based Ligands type: journal_article user_id: '48467' volume: 11 year: '2023' ... --- _id: '48167' abstract: - lang: eng text: AbstractA new approach for the characterization of CO2 methanation catalysts prepared by thermal decomposition of a nickel MOF by hard X‐ray photon‐in/photon‐out spectroscopy in form of high energy resolution fluorescence detected X‐ray absorption near edge structure spectroscopy (HERFD‐XANES) and valence‐to‐core X‐ray emission (VtC‐XES) is presented. In contrast to conventional X‐ray absorption spectroscopy, the increased resolution of both methods allows a more precise phase determination of the final catalyst, which is influenced by the conditions during MOF decomposition. author: - first_name: Sven full_name: Strübbe, Sven id: '76968' last_name: Strübbe - first_name: Michał full_name: Nowakowski, Michał id: '78878' last_name: Nowakowski orcid: 0000-0002-3734-7011 - first_name: Roland full_name: Schoch, Roland id: '48467' last_name: Schoch orcid: 0000-0003-2061-7289 - first_name: Matthias full_name: Bauer, Matthias id: '47241' last_name: Bauer orcid: 0000-0002-9294-6076 citation: ama: Strübbe S, Nowakowski M, Schoch R, Bauer M. High‐Resolution X‐ray Absorption and Emission Spectroscopy for Detailed Analysis of New CO2 Methanation Catalysts. ChemPhysChem. Published online 2023. doi:10.1002/cphc.202300113 apa: Strübbe, S., Nowakowski, M., Schoch, R., & Bauer, M. (2023). High‐Resolution X‐ray Absorption and Emission Spectroscopy for Detailed Analysis of New CO2 Methanation Catalysts. ChemPhysChem. https://doi.org/10.1002/cphc.202300113 bibtex: '@article{Strübbe_Nowakowski_Schoch_Bauer_2023, title={High‐Resolution X‐ray Absorption and Emission Spectroscopy for Detailed Analysis of New CO2 Methanation Catalysts}, DOI={10.1002/cphc.202300113}, journal={ChemPhysChem}, publisher={Wiley}, author={Strübbe, Sven and Nowakowski, Michał and Schoch, Roland and Bauer, Matthias}, year={2023} }' chicago: Strübbe, Sven, Michał Nowakowski, Roland Schoch, and Matthias Bauer. “High‐Resolution X‐ray Absorption and Emission Spectroscopy for Detailed Analysis of New CO2 Methanation Catalysts.” ChemPhysChem, 2023. https://doi.org/10.1002/cphc.202300113. ieee: 'S. Strübbe, M. Nowakowski, R. Schoch, and M. Bauer, “High‐Resolution X‐ray Absorption and Emission Spectroscopy for Detailed Analysis of New CO2 Methanation Catalysts,” ChemPhysChem, 2023, doi: 10.1002/cphc.202300113.' mla: Strübbe, Sven, et al. “High‐Resolution X‐ray Absorption and Emission Spectroscopy for Detailed Analysis of New CO2 Methanation Catalysts.” ChemPhysChem, Wiley, 2023, doi:10.1002/cphc.202300113. short: S. Strübbe, M. Nowakowski, R. Schoch, M. Bauer, ChemPhysChem (2023). date_created: 2023-10-17T08:14:08Z date_updated: 2025-08-15T12:53:23Z doi: 10.1002/cphc.202300113 keyword: - Catalysis language: - iso: eng publication: ChemPhysChem publication_identifier: issn: - 1439-4235 - 1439-7641 publication_status: published publisher: Wiley status: public title: High‐Resolution X‐ray Absorption and Emission Spectroscopy for Detailed Analysis of New CO2 Methanation Catalysts type: journal_article user_id: '48467' year: '2023' ... --- _id: '40993' abstract: - lang: eng text: Understanding high-temperature unconventional superconductivity has become a long-lasting problem in which the cuprates stand as central reference materials. Given this impasse, the recent discovery of superconductivity in analogous nickelate thin films represents a fundamental breakthrough calling for the identification of additional materials in this class. In particular, thermodynamically more robust systems are required to “upgrade” nickelate superconductors from thin films to bulk samples. Here, we contribute in this direction by reporting the synthesis of the new single-layer T′ Pr2NiO3F compound, assessing this synthesis in relation to the only previous T′ nickelate La2NiO3F, and analyzing the electronic properties across the R2NiO3F series (R = La–Lu) via first-principles calculations. We find that these mixed anion systems have a comparatively high degree of stability and their synthesis enables a fine-tuning of their composition as inferred from their characterization. Furthermore, we find that these unprecedented square-planar nickelates hold great promise as prospective superconductors due to their exceptional electronic structure. author: - first_name: Kerstin full_name: Wissel, Kerstin last_name: Wissel - first_name: Fabio full_name: Bernardini, Fabio last_name: Bernardini - first_name: Heesu full_name: Oh, Heesu last_name: Oh - first_name: Sami full_name: Vasala, Sami last_name: Vasala - first_name: Roland full_name: Schoch, Roland id: '48467' last_name: Schoch orcid: 0000-0003-2061-7289 - first_name: Björn full_name: Blaschkowski, Björn last_name: Blaschkowski - first_name: Pieter full_name: Glatzel, Pieter last_name: Glatzel - first_name: Matthias full_name: Bauer, Matthias id: '47241' last_name: Bauer orcid: 0000-0002-9294-6076 - first_name: Oliver full_name: Clemens, Oliver last_name: Clemens - first_name: Andrés full_name: Cano, Andrés last_name: Cano citation: ama: 'Wissel K, Bernardini F, Oh H, et al. Single-Layer T′ Nickelates: Synthesis of the La and Pr Members and Electronic Properties across the Rare-Earth Series. Chemistry of Materials. 2022;34(16):7201-7209. doi:10.1021/acs.chemmater.2c00726' apa: 'Wissel, K., Bernardini, F., Oh, H., Vasala, S., Schoch, R., Blaschkowski, B., Glatzel, P., Bauer, M., Clemens, O., & Cano, A. (2022). Single-Layer T′ Nickelates: Synthesis of the La and Pr Members and Electronic Properties across the Rare-Earth Series. Chemistry of Materials, 34(16), 7201–7209. https://doi.org/10.1021/acs.chemmater.2c00726' bibtex: '@article{Wissel_Bernardini_Oh_Vasala_Schoch_Blaschkowski_Glatzel_Bauer_Clemens_Cano_2022, title={Single-Layer T′ Nickelates: Synthesis of the La and Pr Members and Electronic Properties across the Rare-Earth Series}, volume={34}, DOI={10.1021/acs.chemmater.2c00726}, number={16}, journal={Chemistry of Materials}, publisher={American Chemical Society (ACS)}, author={Wissel, Kerstin and Bernardini, Fabio and Oh, Heesu and Vasala, Sami and Schoch, Roland and Blaschkowski, Björn and Glatzel, Pieter and Bauer, Matthias and Clemens, Oliver and Cano, Andrés}, year={2022}, pages={7201–7209} }' chicago: 'Wissel, Kerstin, Fabio Bernardini, Heesu Oh, Sami Vasala, Roland Schoch, Björn Blaschkowski, Pieter Glatzel, Matthias Bauer, Oliver Clemens, and Andrés Cano. “Single-Layer T′ Nickelates: Synthesis of the La and Pr Members and Electronic Properties across the Rare-Earth Series.” Chemistry of Materials 34, no. 16 (2022): 7201–9. https://doi.org/10.1021/acs.chemmater.2c00726.' ieee: 'K. Wissel et al., “Single-Layer T′ Nickelates: Synthesis of the La and Pr Members and Electronic Properties across the Rare-Earth Series,” Chemistry of Materials, vol. 34, no. 16, pp. 7201–7209, 2022, doi: 10.1021/acs.chemmater.2c00726.' mla: 'Wissel, Kerstin, et al. “Single-Layer T′ Nickelates: Synthesis of the La and Pr Members and Electronic Properties across the Rare-Earth Series.” Chemistry of Materials, vol. 34, no. 16, American Chemical Society (ACS), 2022, pp. 7201–09, doi:10.1021/acs.chemmater.2c00726.' short: K. Wissel, F. Bernardini, H. Oh, S. Vasala, R. Schoch, B. Blaschkowski, P. Glatzel, M. Bauer, O. Clemens, A. Cano, Chemistry of Materials 34 (2022) 7201–7209. date_created: 2023-01-30T16:44:52Z date_updated: 2023-01-31T08:01:26Z department: - _id: '35' - _id: '306' doi: 10.1021/acs.chemmater.2c00726 intvolume: ' 34' issue: '16' keyword: - Materials Chemistry - General Chemical Engineering - General Chemistry language: - iso: eng page: 7201-7209 publication: Chemistry of Materials publication_identifier: issn: - 0897-4756 - 1520-5002 publication_status: published publisher: American Chemical Society (ACS) status: public title: 'Single-Layer T′ Nickelates: Synthesis of the La and Pr Members and Electronic Properties across the Rare-Earth Series' type: journal_article user_id: '48467' volume: 34 year: '2022' ... --- _id: '40987' abstract: - lang: eng text: Catalysts. 2022;12(6). doi:10.3390/catal12060675 apa: Schlicher, S., Prinz, N., Bürger, J., Omlor, A., Singer, C., Zobel, M., Schoch, R., Lindner, J. K. N., Schünemann, V., Kureti, S., & Bauer, M. (2022). Quality or Quantity? How Structural Parameters Affect Catalytic Activity of Iron Oxides for CO Oxidation. Catalysts, 12(6), Article 675. https://doi.org/10.3390/catal12060675 bibtex: '@article{Schlicher_Prinz_Bürger_Omlor_Singer_Zobel_Schoch_Lindner_Schünemann_Kureti_et al._2022, title={Quality or Quantity? How Structural Parameters Affect Catalytic Activity of Iron Oxides for CO Oxidation}, volume={12}, DOI={10.3390/catal12060675}, number={6675}, journal={Catalysts}, publisher={MDPI AG}, author={Schlicher, Steffen and Prinz, Nils and Bürger, Julius and Omlor, Andreas and Singer, Christian and Zobel, Mirijam and Schoch, Roland and Lindner, Jörg K. N. and Schünemann, Volker and Kureti, Sven and et al.}, year={2022} }' chicago: Schlicher, Steffen, Nils Prinz, Julius Bürger, Andreas Omlor, Christian Singer, Mirijam Zobel, Roland Schoch, et al. “Quality or Quantity? How Structural Parameters Affect Catalytic Activity of Iron Oxides for CO Oxidation.” Catalysts 12, no. 6 (2022). https://doi.org/10.3390/catal12060675. ieee: 'S. Schlicher et al., “Quality or Quantity? How Structural Parameters Affect Catalytic Activity of Iron Oxides for CO Oxidation,” Catalysts, vol. 12, no. 6, Art. no. 675, 2022, doi: 10.3390/catal12060675.' mla: Schlicher, Steffen, et al. “Quality or Quantity? How Structural Parameters Affect Catalytic Activity of Iron Oxides for CO Oxidation.” Catalysts, vol. 12, no. 6, 675, MDPI AG, 2022, doi:10.3390/catal12060675. short: S. Schlicher, N. Prinz, J. Bürger, A. Omlor, C. Singer, M. Zobel, R. Schoch, J.K.N. Lindner, V. Schünemann, S. Kureti, M. Bauer, Catalysts 12 (2022). date_created: 2023-01-30T16:24:41Z date_updated: 2023-08-17T06:57:31Z department: - _id: '35' - _id: '306' - _id: '15' doi: 10.3390/catal12060675 intvolume: ' 12' issue: '6' keyword: - Physical and Theoretical Chemistry - Catalysis - General Environmental Science - Key language: - iso: eng publication: Catalysts publication_identifier: issn: - 2073-4344 publication_status: published publisher: MDPI AG status: public title: Quality or Quantity? How Structural Parameters Affect Catalytic Activity of Iron Oxides for CO Oxidation type: journal_article user_id: '14931' volume: 12 year: '2022' ... --- _id: '40998' abstract: - lang: eng text: Covalent organic frameworks (COFs) offer vast structural and chemical diversity enabling a wide and growing range of applications. While COFs are well-established as heterogeneous catalysts, so far, their high and ordered porosity has scarcely been utilized to its full potential when it comes to spatially confined reactions in COF pores to alter the outcome of reactions. Here, we present a highly porous and crystalline, large-pore COF as catalytic support in α,ω-diene ring-closing metathesis reactions, leading to increased macrocyclization selectivity. COF pore-wall modification by immobilization of a Grubbs-Hoveyda-type catalyst via a mild silylation reaction provides a molecularly precise heterogeneous olefin metathesis catalyst. An increased macro(mono)cyclization (MMC) selectivity over oligomerization (O) for the heterogeneous COF-catalyst (MMC:O=1.35) of up to 51 % compared to the homogeneous catalyst (MMC:O=0.90) was observed along with a substrate-size dependency in selectivity, pointing to diffusion limitations induced by the pore confinement. article_type: original author: - first_name: Sebastian T. full_name: Emmerling, Sebastian T. last_name: Emmerling - first_name: Felix full_name: Ziegler, Felix last_name: Ziegler - first_name: Felix R. full_name: Fischer, Felix R. last_name: Fischer - first_name: Roland full_name: Schoch, Roland id: '48467' last_name: Schoch orcid: 0000-0003-2061-7289 - first_name: Matthias full_name: Bauer, Matthias id: '47241' last_name: Bauer orcid: 0000-0002-9294-6076 - first_name: Bernd full_name: Plietker, Bernd last_name: Plietker - first_name: Michael R. full_name: Buchmeiser, Michael R. last_name: Buchmeiser - first_name: Bettina V. full_name: Lotsch, Bettina V. last_name: Lotsch citation: ama: 'Emmerling ST, Ziegler F, Fischer FR, et al. Olefin Metathesis in Confinement: Towards Covalent Organic Framework Scaffolds for Increased Macrocyclization Selectivity. Chemistry – A European Journal. 2021;28(8). doi:10.1002/chem.202104108' apa: 'Emmerling, S. T., Ziegler, F., Fischer, F. R., Schoch, R., Bauer, M., Plietker, B., Buchmeiser, M. R., & Lotsch, B. V. (2021). Olefin Metathesis in Confinement: Towards Covalent Organic Framework Scaffolds for Increased Macrocyclization Selectivity. Chemistry – A European Journal, 28(8). https://doi.org/10.1002/chem.202104108' bibtex: '@article{Emmerling_Ziegler_Fischer_Schoch_Bauer_Plietker_Buchmeiser_Lotsch_2021, title={Olefin Metathesis in Confinement: Towards Covalent Organic Framework Scaffolds for Increased Macrocyclization Selectivity}, volume={28}, DOI={10.1002/chem.202104108}, number={8}, journal={Chemistry – A European Journal}, publisher={Wiley}, author={Emmerling, Sebastian T. and Ziegler, Felix and Fischer, Felix R. and Schoch, Roland and Bauer, Matthias and Plietker, Bernd and Buchmeiser, Michael R. and Lotsch, Bettina V.}, year={2021} }' chicago: 'Emmerling, Sebastian T., Felix Ziegler, Felix R. Fischer, Roland Schoch, Matthias Bauer, Bernd Plietker, Michael R. Buchmeiser, and Bettina V. Lotsch. “Olefin Metathesis in Confinement: Towards Covalent Organic Framework Scaffolds for Increased Macrocyclization Selectivity.” Chemistry – A European Journal 28, no. 8 (2021). https://doi.org/10.1002/chem.202104108.' ieee: 'S. T. Emmerling et al., “Olefin Metathesis in Confinement: Towards Covalent Organic Framework Scaffolds for Increased Macrocyclization Selectivity,” Chemistry – A European Journal, vol. 28, no. 8, 2021, doi: 10.1002/chem.202104108.' mla: 'Emmerling, Sebastian T., et al. “Olefin Metathesis in Confinement: Towards Covalent Organic Framework Scaffolds for Increased Macrocyclization Selectivity.” Chemistry – A European Journal, vol. 28, no. 8, Wiley, 2021, doi:10.1002/chem.202104108.' short: S.T. Emmerling, F. Ziegler, F.R. Fischer, R. Schoch, M. Bauer, B. Plietker, M.R. Buchmeiser, B.V. Lotsch, Chemistry – A European Journal 28 (2021). date_created: 2023-01-30T16:48:22Z date_updated: 2023-01-31T08:05:07Z department: - _id: '35' - _id: '306' doi: 10.1002/chem.202104108 intvolume: ' 28' issue: '8' keyword: - General Chemistry - Catalysis - Organic Chemistry language: - iso: eng publication: Chemistry – A European Journal publication_identifier: issn: - 0947-6539 - 1521-3765 publication_status: published publisher: Wiley status: public title: 'Olefin Metathesis in Confinement: Towards Covalent Organic Framework Scaffolds for Increased Macrocyclization Selectivity' type: journal_article user_id: '48467' volume: 28 year: '2021' ... --- _id: '41003' abstract: - lang: eng text: Combining strong σ-donating N-heterocyclic carbene ligands and π-accepting pyridine ligands with a high octahedricity in rigid iron(II) complexes increases the 3MLCT lifetime from 0.15 ps in the prototypical [Fe(tpy)2]2+ complex to 9.2 ps in [Fe(dpmi)2]2+12+. The tripodal CNN ligand dpmi (di(pyridine-2-yl)(3-methylimidazol-2-yl)methane) forms six-membered chelate rings with the iron(II) centre leading to close to 90° bite angles and enhanced iron-ligand orbital overlap article_type: original author: - first_name: Thomas full_name: Reuter, Thomas last_name: Reuter - first_name: Ayla full_name: Kruse, Ayla last_name: Kruse - first_name: Roland full_name: Schoch, Roland id: '48467' last_name: Schoch orcid: 0000-0003-2061-7289 - first_name: Stefan full_name: Lochbrunner, Stefan last_name: Lochbrunner - first_name: Matthias full_name: Bauer, Matthias id: '47241' last_name: Bauer orcid: 0000-0002-9294-6076 - first_name: Katja full_name: Heinze, Katja last_name: Heinze citation: ama: Reuter T, Kruse A, Schoch R, Lochbrunner S, Bauer M, Heinze K. Higher MLCT lifetime of carbene iron(<scp>ii</scp>) complexes by chelate ring expansion. Chemical Communications. 2021;57(61):7541-7544. doi:10.1039/d1cc02173g apa: Reuter, T., Kruse, A., Schoch, R., Lochbrunner, S., Bauer, M., & Heinze, K. (2021). Higher MLCT lifetime of carbene iron(<scp>ii</scp>) complexes by chelate ring expansion. Chemical Communications, 57(61), 7541–7544. https://doi.org/10.1039/d1cc02173g bibtex: '@article{Reuter_Kruse_Schoch_Lochbrunner_Bauer_Heinze_2021, title={Higher MLCT lifetime of carbene iron(<scp>ii</scp>) complexes by chelate ring expansion}, volume={57}, DOI={10.1039/d1cc02173g}, number={61}, journal={Chemical Communications}, publisher={Royal Society of Chemistry (RSC)}, author={Reuter, Thomas and Kruse, Ayla and Schoch, Roland and Lochbrunner, Stefan and Bauer, Matthias and Heinze, Katja}, year={2021}, pages={7541–7544} }' chicago: 'Reuter, Thomas, Ayla Kruse, Roland Schoch, Stefan Lochbrunner, Matthias Bauer, and Katja Heinze. “Higher MLCT Lifetime of Carbene Iron(<scp>ii</Scp>) Complexes by Chelate Ring Expansion.” Chemical Communications 57, no. 61 (2021): 7541–44. https://doi.org/10.1039/d1cc02173g.' ieee: 'T. Reuter, A. Kruse, R. Schoch, S. Lochbrunner, M. Bauer, and K. Heinze, “Higher MLCT lifetime of carbene iron(<scp>ii</scp>) complexes by chelate ring expansion,” Chemical Communications, vol. 57, no. 61, pp. 7541–7544, 2021, doi: 10.1039/d1cc02173g.' mla: Reuter, Thomas, et al. “Higher MLCT Lifetime of Carbene Iron(<scp>ii</Scp>) Complexes by Chelate Ring Expansion.” Chemical Communications, vol. 57, no. 61, Royal Society of Chemistry (RSC), 2021, pp. 7541–44, doi:10.1039/d1cc02173g. short: T. Reuter, A. Kruse, R. Schoch, S. Lochbrunner, M. Bauer, K. Heinze, Chemical Communications 57 (2021) 7541–7544. date_created: 2023-01-30T16:49:33Z date_updated: 2023-01-31T08:06:16Z department: - _id: '35' - _id: '306' doi: 10.1039/d1cc02173g intvolume: ' 57' issue: '61' keyword: - Materials Chemistry - Metals and Alloys - Surfaces - Coatings and Films - General Chemistry - Ceramics and Composites - Electronic - Optical and Magnetic Materials - Catalysis language: - iso: eng page: 7541-7544 publication: Chemical Communications publication_identifier: issn: - 1359-7345 - 1364-548X publication_status: published publisher: Royal Society of Chemistry (RSC) status: public title: Higher MLCT lifetime of carbene iron(ii) complexes by chelate ring expansion type: journal_article user_id: '48467' volume: 57 year: '2021' ... --- _id: '41000' abstract: - lang: eng text: Metal-catalyzed C−H activations are environmentally and economically attractive synthetic strategies for the construction of functional molecules as they obviate the need for pre-functionalized substrates and minimize waste generation. Great challenges reside in the control of selectivities, the utilization of unbiased hydrocarbons, and the operation of atom-economical dehydrocoupling mechanisms. An especially mild borylation of benzylic CH bonds was developed with the ligand-free pre-catalyst Co[N(SiMe3)2]2 and the bench-stable and inexpensive borylation reagent B2pin2 that produces H2 as the only by-product. A full set of kinetic, spectroscopic, and preparative mechanistic studies are indicative of a tandem catalysis mechanism of CH-borylation and dehydrocoupling via molecular CoI catalysts. article_type: original author: - first_name: Pradip full_name: Ghosh, Pradip last_name: Ghosh - first_name: Roland full_name: Schoch, Roland id: '48467' last_name: Schoch orcid: 0000-0003-2061-7289 - first_name: Matthias full_name: Bauer, Matthias id: '47241' last_name: Bauer orcid: 0000-0002-9294-6076 - first_name: Axel full_name: Jacobi von Wangelin, Axel last_name: Jacobi von Wangelin citation: ama: Ghosh P, Schoch R, Bauer M, Jacobi von Wangelin A. Selective Benzylic CH‐Borylations by Tandem Cobalt Catalysis. Angewandte Chemie International Edition. 2021;61(1). doi:10.1002/anie.202110821 apa: Ghosh, P., Schoch, R., Bauer, M., & Jacobi von Wangelin, A. (2021). Selective Benzylic CH‐Borylations by Tandem Cobalt Catalysis. Angewandte Chemie International Edition, 61(1). https://doi.org/10.1002/anie.202110821 bibtex: '@article{Ghosh_Schoch_Bauer_Jacobi von Wangelin_2021, title={Selective Benzylic CH‐Borylations by Tandem Cobalt Catalysis}, volume={61}, DOI={10.1002/anie.202110821}, number={1}, journal={Angewandte Chemie International Edition}, publisher={Wiley}, author={Ghosh, Pradip and Schoch, Roland and Bauer, Matthias and Jacobi von Wangelin, Axel}, year={2021} }' chicago: Ghosh, Pradip, Roland Schoch, Matthias Bauer, and Axel Jacobi von Wangelin. “Selective Benzylic CH‐Borylations by Tandem Cobalt Catalysis.” Angewandte Chemie International Edition 61, no. 1 (2021). https://doi.org/10.1002/anie.202110821. ieee: 'P. Ghosh, R. Schoch, M. Bauer, and A. Jacobi von Wangelin, “Selective Benzylic CH‐Borylations by Tandem Cobalt Catalysis,” Angewandte Chemie International Edition, vol. 61, no. 1, 2021, doi: 10.1002/anie.202110821.' mla: Ghosh, Pradip, et al. “Selective Benzylic CH‐Borylations by Tandem Cobalt Catalysis.” Angewandte Chemie International Edition, vol. 61, no. 1, Wiley, 2021, doi:10.1002/anie.202110821. short: P. Ghosh, R. Schoch, M. Bauer, A. Jacobi von Wangelin, Angewandte Chemie International Edition 61 (2021). date_created: 2023-01-30T16:48:53Z date_updated: 2023-01-31T08:05:26Z department: - _id: '35' - _id: '306' doi: 10.1002/anie.202110821 intvolume: ' 61' issue: '1' keyword: - General Chemistry - Catalysis language: - iso: eng publication: Angewandte Chemie International Edition publication_identifier: issn: - 1433-7851 - 1521-3773 publication_status: published publisher: Wiley status: public title: Selective Benzylic CH‐Borylations by Tandem Cobalt Catalysis type: journal_article user_id: '48467' volume: 61 year: '2021' ... --- _id: '41013' abstract: - lang: eng text: Within this article, it is shown that an electrochemical defluorination and additional fluorination of Ruddlesden–Popper-type La2NiO3F2 is possible within all-solid-state fluoride-ion batteries. Structural changes within the reduced and oxidized phases have been examined by X-ray diffraction studies at different states of charging and discharging. The synthesis of the oxidized phase La2NiO3F2+x proved to be successful by structural analysis using both X-ray powder diffraction and automated electron diffraction tomography techniques. The structural reversibility on re-fluorinating and re-defluorinating is also demonstrated. Moreover, the influence of different sequences of consecutive reduction and oxidation steps on the formed phases has been investigated. The observed structural changes have been compared to changes in phases obtained via other topochemical modification approaches such as hydride-based reduction and oxidative fluorination using F2 gas, highlighting the potential of such electrochemical reactions as alternative synthesis routes. Furthermore, the electrochemical routes represent safe and controllable synthesis approaches for novel phases, which cannot be synthesized via other topochemical methods. Additionally, side reactions, occurring alongside the desired electrochemical reactions, have been addressed and the cycling performance has been studied. article_type: original author: - first_name: Kerstin full_name: Wissel, Kerstin last_name: Wissel - first_name: Roland full_name: Schoch, Roland id: '48467' last_name: Schoch orcid: 0000-0003-2061-7289 - first_name: Tobias full_name: Vogel, Tobias last_name: Vogel - first_name: Manuel full_name: Donzelli, Manuel last_name: Donzelli - first_name: Galina full_name: Matveeva, Galina last_name: Matveeva - first_name: Ute full_name: Kolb, Ute last_name: Kolb - first_name: Matthias full_name: Bauer, Matthias id: '47241' last_name: Bauer orcid: 0000-0002-9294-6076 - first_name: Peter R. full_name: Slater, Peter R. last_name: Slater - first_name: Oliver full_name: Clemens, Oliver last_name: Clemens citation: ama: Wissel K, Schoch R, Vogel T, et al. Electrochemical Reduction and Oxidation of Ruddlesden–Popper-Type La₂NiO₃F₂ within Fluoride-Ion Batteries. Chemistry of Materials. 2021;33(2):499-512. doi:10.1021/acs.chemmater.0c01762 apa: Wissel, K., Schoch, R., Vogel, T., Donzelli, M., Matveeva, G., Kolb, U., Bauer, M., Slater, P. R., & Clemens, O. (2021). Electrochemical Reduction and Oxidation of Ruddlesden–Popper-Type La₂NiO₃F₂ within Fluoride-Ion Batteries. Chemistry of Materials, 33(2), 499–512. https://doi.org/10.1021/acs.chemmater.0c01762 bibtex: '@article{Wissel_Schoch_Vogel_Donzelli_Matveeva_Kolb_Bauer_Slater_Clemens_2021, title={Electrochemical Reduction and Oxidation of Ruddlesden–Popper-Type La₂NiO₃F₂ within Fluoride-Ion Batteries}, volume={33}, DOI={10.1021/acs.chemmater.0c01762}, number={2}, journal={Chemistry of Materials}, publisher={American Chemical Society (ACS)}, author={Wissel, Kerstin and Schoch, Roland and Vogel, Tobias and Donzelli, Manuel and Matveeva, Galina and Kolb, Ute and Bauer, Matthias and Slater, Peter R. and Clemens, Oliver}, year={2021}, pages={499–512} }' chicago: 'Wissel, Kerstin, Roland Schoch, Tobias Vogel, Manuel Donzelli, Galina Matveeva, Ute Kolb, Matthias Bauer, Peter R. Slater, and Oliver Clemens. “Electrochemical Reduction and Oxidation of Ruddlesden–Popper-Type La₂NiO₃F₂ within Fluoride-Ion Batteries.” Chemistry of Materials 33, no. 2 (2021): 499–512. https://doi.org/10.1021/acs.chemmater.0c01762.' ieee: 'K. Wissel et al., “Electrochemical Reduction and Oxidation of Ruddlesden–Popper-Type La₂NiO₃F₂ within Fluoride-Ion Batteries,” Chemistry of Materials, vol. 33, no. 2, pp. 499–512, 2021, doi: 10.1021/acs.chemmater.0c01762.' mla: Wissel, Kerstin, et al. “Electrochemical Reduction and Oxidation of Ruddlesden–Popper-Type La₂NiO₃F₂ within Fluoride-Ion Batteries.” Chemistry of Materials, vol. 33, no. 2, American Chemical Society (ACS), 2021, pp. 499–512, doi:10.1021/acs.chemmater.0c01762. short: K. Wissel, R. Schoch, T. Vogel, M. Donzelli, G. Matveeva, U. Kolb, M. Bauer, P.R. Slater, O. Clemens, Chemistry of Materials 33 (2021) 499–512. date_created: 2023-01-30T17:01:00Z date_updated: 2023-01-31T08:07:28Z department: - _id: '35' - _id: '306' doi: 10.1021/acs.chemmater.0c01762 intvolume: ' 33' issue: '2' keyword: - Materials Chemistry - General Chemical Engineering - General Chemistry language: - iso: eng page: 499-512 publication: Chemistry of Materials publication_identifier: issn: - 0897-4756 - 1520-5002 publication_status: published publisher: American Chemical Society (ACS) status: public title: Electrochemical Reduction and Oxidation of Ruddlesden–Popper-Type La₂NiO₃F₂ within Fluoride-Ion Batteries type: journal_article user_id: '48467' volume: 33 year: '2021' ...