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Inorganic Chemistry, 13300–13310. https://doi.org/10.1021/acs.inorgchem.7b02063","bibtex":"@article{Burkhardt_Holzwarth_Plietker_Bauer_2017, title={Detection and Characterization of Hydride Ligands in Iron Complexes by High-Resolution Hard X-ray Spectroscopy and Implications for Catalytic Processes}, DOI={10.1021/acs.inorgchem.7b02063}, journal={Inorganic Chemistry}, author={Burkhardt, Lukas and Holzwarth, Michael and Plietker, Bernd and Bauer, Matthias}, year={2017}, pages={13300–13310} }","short":"L. Burkhardt, M. Holzwarth, B. Plietker, M. Bauer, Inorganic Chemistry (2017) 13300–13310.","mla":"Burkhardt, Lukas, et al. “Detection and Characterization of Hydride Ligands in Iron Complexes by High-Resolution Hard X-Ray Spectroscopy and Implications for Catalytic Processes.” Inorganic Chemistry, 2017, pp. 13300–10, doi:10.1021/acs.inorgchem.7b02063.","ama":"Burkhardt L, Holzwarth M, Plietker B, Bauer M. Detection and Characterization of Hydride Ligands in Iron Complexes by High-Resolution Hard X-ray Spectroscopy and Implications for Catalytic Processes. Inorganic Chemistry. 2017:13300-13310. doi:10.1021/acs.inorgchem.7b02063","chicago":"Burkhardt, Lukas, Michael Holzwarth, Bernd Plietker, and Matthias Bauer. “Detection and Characterization of Hydride Ligands in Iron Complexes by High-Resolution Hard X-Ray Spectroscopy and Implications for Catalytic Processes.” Inorganic Chemistry, 2017, 13300–310. https://doi.org/10.1021/acs.inorgchem.7b02063.","ieee":"L. Burkhardt, M. Holzwarth, B. Plietker, and M. Bauer, “Detection and Characterization of Hydride Ligands in Iron Complexes by High-Resolution Hard X-ray Spectroscopy and Implications for Catalytic Processes,” Inorganic Chemistry, pp. 13300–13310, 2017."},"publication_identifier":{"issn":["0020-1669","1520-510X"]},"publication_status":"published","language":[{"iso":"eng"}],"_id":"16318","department":[{"_id":"43"},{"_id":"35"},{"_id":"306"}],"user_id":"54038","status":"public","publication":"Inorganic Chemistry","type":"journal_article"},{"publication":"Nature Chemistry","type":"journal_article","status":"public","_id":"16322","department":[{"_id":"43"},{"_id":"35"},{"_id":"306"}],"user_id":"54038","language":[{"iso":"eng"}],"publication_identifier":{"issn":["1755-4330","1755-4349"]},"publication_status":"published","year":"2017","page":"1249-1255","citation":{"chicago":"Preiß, Sebastian, Christoph Förster, Sven Otto, Matthias Bauer, Patrick Müller, Dariush Hinderberger, Haleh Hashemi Haeri, Luca Carella, and Katja Heinze. “Structure and Reactivity of a Mononuclear Gold(II) Complex.” Nature Chemistry, 2017, 1249–55. https://doi.org/10.1038/nchem.2836.","ieee":"S. Preiß et al., “Structure and reactivity of a mononuclear gold(II) complex,” Nature Chemistry, pp. 1249–1255, 2017.","ama":"Preiß S, Förster C, Otto S, et al. Structure and reactivity of a mononuclear gold(II) complex. Nature Chemistry. 2017:1249-1255. doi:10.1038/nchem.2836","apa":"Preiß, S., Förster, C., Otto, S., Bauer, M., Müller, P., Hinderberger, D., … Heinze, K. (2017). Structure and reactivity of a mononuclear gold(II) complex. Nature Chemistry, 1249–1255. https://doi.org/10.1038/nchem.2836","short":"S. Preiß, C. Förster, S. Otto, M. Bauer, P. Müller, D. Hinderberger, H. Hashemi Haeri, L. Carella, K. Heinze, Nature Chemistry (2017) 1249–1255.","mla":"Preiß, Sebastian, et al. “Structure and Reactivity of a Mononuclear Gold(II) Complex.” Nature Chemistry, 2017, pp. 1249–55, doi:10.1038/nchem.2836.","bibtex":"@article{Preiß_Förster_Otto_Bauer_Müller_Hinderberger_Hashemi Haeri_Carella_Heinze_2017, title={Structure and reactivity of a mononuclear gold(II) complex}, DOI={10.1038/nchem.2836}, journal={Nature Chemistry}, author={Preiß, Sebastian and Förster, Christoph and Otto, Sven and Bauer, Matthias and Müller, Patrick and Hinderberger, Dariush and Hashemi Haeri, Haleh and Carella, Luca and Heinze, Katja}, year={2017}, pages={1249–1255} }"},"date_updated":"2022-01-06T06:52:48Z","author":[{"first_name":"Sebastian","full_name":"Preiß, Sebastian","last_name":"Preiß"},{"last_name":"Förster","full_name":"Förster, Christoph","first_name":"Christoph"},{"first_name":"Sven","full_name":"Otto, Sven","last_name":"Otto"},{"first_name":"Matthias","full_name":"Bauer, Matthias","id":"47241","last_name":"Bauer"},{"first_name":"Patrick","last_name":"Müller","orcid":"0000-0003-1103-4073","id":"54037","full_name":"Müller, Patrick"},{"last_name":"Hinderberger","full_name":"Hinderberger, Dariush","first_name":"Dariush"},{"first_name":"Haleh","last_name":"Hashemi Haeri","full_name":"Hashemi Haeri, Haleh"},{"full_name":"Carella, Luca","last_name":"Carella","first_name":"Luca"},{"first_name":"Katja","full_name":"Heinze, Katja","last_name":"Heinze"}],"date_created":"2020-03-23T10:58:44Z","title":"Structure and reactivity of a mononuclear gold(II) complex","doi":"10.1038/nchem.2836"},{"language":[{"iso":"eng"}],"department":[{"_id":"35"},{"_id":"306"}],"user_id":"54038","_id":"16332","project":[{"name":"Computing Resources Provided by the Paderborn Center for Parallel Computing","_id":"52"}],"status":"public","type":"dissertation","doi":"10.17619/UNIPB/1-253","main_file_link":[{"url":"http://digital.ub.uni-paderborn.de/hs/content/titleinfo/2688564"}],"title":"Phenanthroline-basierte Kupferkomplexe für Wasserspaltungsanwendungen","supervisor":[{"id":"47241","full_name":"Bauer, Matthias","last_name":"Bauer","first_name":"Matthias"}],"date_created":"2020-03-23T13:11:06Z","author":[{"last_name":"Stührenberg","full_name":"Stührenberg, Kai","first_name":"Kai"}],"date_updated":"2022-01-06T06:52:49Z","citation":{"ieee":"K. Stührenberg, Phenanthroline-basierte Kupferkomplexe für Wasserspaltungsanwendungen. 2017.","chicago":"Stührenberg, Kai. Phenanthroline-Basierte Kupferkomplexe Für Wasserspaltungsanwendungen, 2017. https://doi.org/10.17619/UNIPB/1-253.","ama":"Stührenberg K. Phenanthroline-Basierte Kupferkomplexe Für Wasserspaltungsanwendungen.; 2017. doi:10.17619/UNIPB/1-253","apa":"Stührenberg, K. (2017). Phenanthroline-basierte Kupferkomplexe für Wasserspaltungsanwendungen. https://doi.org/10.17619/UNIPB/1-253","mla":"Stührenberg, Kai. Phenanthroline-Basierte Kupferkomplexe Für Wasserspaltungsanwendungen. 2017, doi:10.17619/UNIPB/1-253.","short":"K. Stührenberg, Phenanthroline-Basierte Kupferkomplexe Für Wasserspaltungsanwendungen, 2017.","bibtex":"@book{Stührenberg_2017, title={Phenanthroline-basierte Kupferkomplexe für Wasserspaltungsanwendungen}, DOI={10.17619/UNIPB/1-253}, author={Stührenberg, Kai}, year={2017} }"},"year":"2017"},{"abstract":[{"text":"A numerically efficient yet highly accurate implementation of the crystal orbital Hamilton population (COHP) scheme for plane-wave calculations is presented. It is based on the projector-augmented wave (PAW) formalism in combination with norm-conserving pseudopotentials and allows to extract chemical interactions between atoms from band-structure calculations even for large and complex systems. The potential of the present COHP implementation is demonstrated by an in-depth analysis of the intensively investigated metal-insulator transition in atomic-scale indium wires self-assembled on the Si(111) surface. Thereby bond formation between In atoms of adjacent zigzag chains is found to be instrumental for the phase change. © 2017 Wiley Periodicals, Inc.","lang":"eng"}],"status":"public","publication":"Journal of Computational Chemistry","type":"journal_article","keyword":["density functional theory","bonding","crystal orbital Hamilton population","indium nanowires","phase transition"],"language":[{"iso":"eng"}],"_id":"13238","project":[{"_id":"52","name":"Computing Resources Provided by the Paderborn Center for Parallel Computing"}],"department":[{"_id":"304"}],"user_id":"71692","year":"2017","page":"2276-2282","intvolume":" 38","citation":{"apa":"Lücke, A., Gerstmann, U., Kühne, T. D., & Schmidt, W. G. (2017). Efficient PAW-based bond strength analysis for understanding the In/Si(111)(8 × 2) – (4 × 1) phase transition. Journal of Computational Chemistry, 38(26), 2276–2282. https://doi.org/10.1002/jcc.24878","short":"A. Lücke, U. Gerstmann, T.D. Kühne, W.G. Schmidt, Journal of Computational Chemistry 38 (2017) 2276–2282.","bibtex":"@article{Lücke_Gerstmann_Kühne_Schmidt_2017, title={Efficient PAW-based bond strength analysis for understanding the In/Si(111)(8 × 2) – (4 × 1) phase transition}, volume={38}, DOI={10.1002/jcc.24878}, number={26}, journal={Journal of Computational Chemistry}, author={Lücke, Andreas and Gerstmann, Uwe and Kühne, Thomas D. and Schmidt, Wolf G.}, year={2017}, pages={2276–2282} }","mla":"Lücke, Andreas, et al. “Efficient PAW-Based Bond Strength Analysis for Understanding the In/Si(111)(8 × 2) – (4 × 1) Phase Transition.” Journal of Computational Chemistry, vol. 38, no. 26, 2017, pp. 2276–82, doi:10.1002/jcc.24878.","ieee":"A. Lücke, U. Gerstmann, T. D. Kühne, and W. G. Schmidt, “Efficient PAW-based bond strength analysis for understanding the In/Si(111)(8 × 2) – (4 × 1) phase transition,” Journal of Computational Chemistry, vol. 38, no. 26, pp. 2276–2282, 2017.","chicago":"Lücke, Andreas, Uwe Gerstmann, Thomas D. Kühne, and Wolf G. Schmidt. “Efficient PAW-Based Bond Strength Analysis for Understanding the In/Si(111)(8 × 2) – (4 × 1) Phase Transition.” Journal of Computational Chemistry 38, no. 26 (2017): 2276–82. https://doi.org/10.1002/jcc.24878.","ama":"Lücke A, Gerstmann U, Kühne TD, Schmidt WG. Efficient PAW-based bond strength analysis for understanding the In/Si(111)(8 × 2) – (4 × 1) phase transition. Journal of Computational Chemistry. 2017;38(26):2276-2282. doi:10.1002/jcc.24878"},"publication_status":"published","issue":"26","title":"Efficient PAW-based bond strength analysis for understanding the In/Si(111)(8 × 2) – (4 × 1) phase transition","doi":"10.1002/jcc.24878","date_updated":"2022-01-06T06:51:31Z","volume":38,"author":[{"full_name":"Lücke, Andreas","last_name":"Lücke","first_name":"Andreas"},{"first_name":"Uwe","last_name":"Gerstmann","full_name":"Gerstmann, Uwe"},{"last_name":"Kühne","full_name":"Kühne, Thomas D.","first_name":"Thomas D."},{"last_name":"Schmidt","full_name":"Schmidt, Wolf G.","first_name":"Wolf G."}],"date_created":"2019-09-16T12:39:15Z"},{"citation":{"ieee":"Sam Azadi and T. D. Kühne, “High-pressure hydrogen sulfide by diffusion quantum Monte Carlo,” The Journal of Chemical Physics, vol. 146, no. 8, p. 084503, 2017.","chicago":"Azadi, Sam , and Thomas D. Kühne. “High-Pressure Hydrogen Sulfide by Diffusion Quantum Monte Carlo.” The Journal of Chemical Physics 146, no. 8 (2017): 084503. https://doi.org/10.1063/1.4976836.","ama":"Azadi Sam , Kühne TD. High-pressure hydrogen sulfide by diffusion quantum Monte Carlo. The Journal of Chemical Physics. 2017;146(8):084503. doi:10.1063/1.4976836","mla":"Azadi, Sam , and Thomas D. Kühne. “High-Pressure Hydrogen Sulfide by Diffusion Quantum Monte Carlo.” The Journal of Chemical Physics, vol. 146, no. 8, 2017, p. 084503, doi:10.1063/1.4976836.","short":"Sam Azadi, T.D. Kühne, The Journal of Chemical Physics 146 (2017) 084503.","bibtex":"@article{Azadi_Kühne_2017, title={High-pressure hydrogen sulfide by diffusion quantum Monte Carlo}, volume={146}, DOI={10.1063/1.4976836}, number={8}, journal={The Journal of Chemical Physics}, author={Azadi, Sam and Kühne, Thomas D.}, year={2017}, pages={084503} }","apa":"Azadi, Sam , & Kühne, T. D. (2017). High-pressure hydrogen sulfide by diffusion quantum Monte Carlo. The Journal of Chemical Physics, 146(8), 084503. https://doi.org/10.1063/1.4976836"},"intvolume":" 146","page":"084503","year":"2017","issue":"8","publication_status":"published","doi":"10.1063/1.4976836","title":"High-pressure hydrogen sulfide by diffusion quantum Monte Carlo","author":[{"first_name":" Sam ","last_name":"Azadi","full_name":"Azadi, Sam "},{"first_name":"Thomas D.","last_name":"Kühne","full_name":"Kühne, Thomas D."}],"date_created":"2019-09-16T12:51:16Z","volume":146,"date_updated":"2022-01-06T06:51:31Z","status":"public","type":"journal_article","publication":"The Journal of Chemical Physics","language":[{"iso":"eng"}],"user_id":"71692","department":[{"_id":"304"}],"project":[{"name":"Computing Resources Provided by the Paderborn Center for Parallel Computing","_id":"52"}],"_id":"13239"},{"article_number":"1700506","article_type":"original","department":[{"_id":"163"}],"user_id":"94","_id":"32445","status":"public","type":"journal_article","doi":"10.1002/macp.201700506","volume":219,"author":[{"first_name":"Xiaoqian","last_name":"Yu","full_name":"Yu, Xiaoqian"},{"first_name":"Marie-Theres","full_name":"Picker, Marie-Theres","last_name":"Picker"},{"last_name":"Schneider","full_name":"Schneider, Martin","first_name":"Martin"},{"first_name":"Artjom","last_name":"Herberg","id":"94","full_name":"Herberg, Artjom"},{"last_name":"Pascual","full_name":"Pascual, Sagrario","first_name":"Sagrario"},{"first_name":"Laurent","full_name":"Fontaine, Laurent","last_name":"Fontaine"},{"first_name":"Dirk","last_name":"Kuckling","id":"287","full_name":"Kuckling, Dirk"}],"date_updated":"2022-07-28T09:58:34Z","intvolume":" 219","citation":{"apa":"Yu, X., Picker, M.-T., Schneider, M., Herberg, A., Pascual, S., Fontaine, L., & Kuckling, D. (2017). Synthesis of Amphiphilic Block Copolymers Based on SKA by RAFT Polymerization. Macromolecular Chemistry and Physics, 219(5), Article 1700506. https://doi.org/10.1002/macp.201700506","bibtex":"@article{Yu_Picker_Schneider_Herberg_Pascual_Fontaine_Kuckling_2017, title={Synthesis of Amphiphilic Block Copolymers Based on SKA by RAFT Polymerization}, volume={219}, DOI={10.1002/macp.201700506}, number={51700506}, journal={Macromolecular Chemistry and Physics}, publisher={Wiley}, author={Yu, Xiaoqian and Picker, Marie-Theres and Schneider, Martin and Herberg, Artjom and Pascual, Sagrario and Fontaine, Laurent and Kuckling, Dirk}, year={2017} }","short":"X. Yu, M.-T. Picker, M. Schneider, A. Herberg, S. Pascual, L. Fontaine, D. Kuckling, Macromolecular Chemistry and Physics 219 (2017).","mla":"Yu, Xiaoqian, et al. “Synthesis of Amphiphilic Block Copolymers Based on SKA by RAFT Polymerization.” Macromolecular Chemistry and Physics, vol. 219, no. 5, 1700506, Wiley, 2017, doi:10.1002/macp.201700506.","ama":"Yu X, Picker M-T, Schneider M, et al. Synthesis of Amphiphilic Block Copolymers Based on SKA by RAFT Polymerization. Macromolecular Chemistry and Physics. 2017;219(5). doi:10.1002/macp.201700506","chicago":"Yu, Xiaoqian, Marie-Theres Picker, Martin Schneider, Artjom Herberg, Sagrario Pascual, Laurent Fontaine, and Dirk Kuckling. “Synthesis of Amphiphilic Block Copolymers Based on SKA by RAFT Polymerization.” Macromolecular Chemistry and Physics 219, no. 5 (2017). https://doi.org/10.1002/macp.201700506.","ieee":"X. Yu et al., “Synthesis of Amphiphilic Block Copolymers Based on SKA by RAFT Polymerization,” Macromolecular Chemistry and Physics, vol. 219, no. 5, Art. no. 1700506, 2017, doi: 10.1002/macp.201700506."},"publication_identifier":{"issn":["1022-1352"]},"publication_status":"published","language":[{"iso":"eng"}],"keyword":["Materials Chemistry","Organic Chemistry","Polymers and Plastics","Physical and Theoretical Chemistry","Condensed Matter Physics"],"publication":"Macromolecular Chemistry and Physics","title":"Synthesis of Amphiphilic Block Copolymers Based on SKA by RAFT Polymerization","date_created":"2022-07-28T09:52:27Z","publisher":"Wiley","year":"2017","issue":"5"},{"doi":"10.1364/OE.25.022607","date_updated":"2023-01-10T13:16:11Z","author":[{"last_name":"Wahle","full_name":"Wahle, M.","first_name":"M."},{"first_name":"Katharina","last_name":"Brassat","id":"11305","full_name":"Brassat, Katharina"},{"last_name":"Ebel","full_name":"Ebel, J.","first_name":"J."},{"full_name":"Bürger, Julius","id":"46952","last_name":"Bürger","first_name":"Julius"},{"first_name":"Jörg","last_name":"Lindner","full_name":"Lindner, Jörg","id":"20797"},{"first_name":"Heinz-Siegfried","last_name":"Kitzerow","full_name":"Kitzerow, Heinz-Siegfried","id":"254"}],"volume":25,"citation":{"ama":"Wahle M, Brassat K, Ebel J, Bürger J, Lindner J, Kitzerow H-S. Two-dimensional switchable blue phase gratings manufactured by nanosphere lithography. Optics Express 25. 2017;25(19):22608-22619. doi:10.1364/OE.25.022607","ieee":"M. Wahle, K. Brassat, J. Ebel, J. Bürger, J. Lindner, and H.-S. Kitzerow, “Two-dimensional switchable blue phase gratings manufactured by nanosphere lithography,” Optics Express 25, vol. 25, no. 19, pp. 22608–22619, 2017, doi: 10.1364/OE.25.022607.","chicago":"Wahle, M., Katharina Brassat, J. Ebel, Julius Bürger, Jörg Lindner, and Heinz-Siegfried Kitzerow. “Two-Dimensional Switchable Blue Phase Gratings Manufactured by Nanosphere Lithography.” Optics Express 25 25, no. 19 (2017): 22608–19. https://doi.org/10.1364/OE.25.022607.","mla":"Wahle, M., et al. “Two-Dimensional Switchable Blue Phase Gratings Manufactured by Nanosphere Lithography.” Optics Express 25, vol. 25, no. 19, 2017, pp. 22608–19, doi:10.1364/OE.25.022607.","short":"M. Wahle, K. Brassat, J. Ebel, J. Bürger, J. Lindner, H.-S. Kitzerow, Optics Express 25 25 (2017) 22608–22619.","bibtex":"@article{Wahle_Brassat_Ebel_Bürger_Lindner_Kitzerow_2017, title={Two-dimensional switchable blue phase gratings manufactured by nanosphere lithography}, volume={25}, DOI={10.1364/OE.25.022607}, number={19}, journal={Optics Express 25}, author={Wahle, M. and Brassat, Katharina and Ebel, J. and Bürger, Julius and Lindner, Jörg and Kitzerow, Heinz-Siegfried}, year={2017}, pages={22608–22619} }","apa":"Wahle, M., Brassat, K., Ebel, J., Bürger, J., Lindner, J., & Kitzerow, H.-S. (2017). Two-dimensional switchable blue phase gratings manufactured by nanosphere lithography. Optics Express 25, 25(19), 22608–22619. https://doi.org/10.1364/OE.25.022607"},"intvolume":" 25","page":"22608-22619","publication_status":"published","has_accepted_license":"1","article_type":"original","file_date_updated":"2018-08-21T12:02:06Z","_id":"3997","user_id":"14931","department":[{"_id":"2"},{"_id":"286"},{"_id":"230"},{"_id":"15"},{"_id":"313"}],"status":"public","type":"journal_article","title":"Two-dimensional switchable blue phase gratings manufactured by nanosphere lithography","date_created":"2018-08-21T12:04:28Z","year":"2017","issue":"19","ddc":["530"],"language":[{"iso":"eng"}],"abstract":[{"lang":"eng","text":"Switchable two dimensional liquid crystal diffraction gratings are promising can-\r\ndidates in beam steering devices, multiplexers and holographic displays. For these areas of applications a high degree of integration in optical systems is much sought-after. In the context of diffraction gratings this means that the angle of diffraction should be rather high, which typically poses a problem as the fabrication of small grating periods is challenging. In this paper, we propose the use of nanosphere lithography (NSL) for the fabrication of two-dimensionally\r\nstructured electrodes with a periodicity of a few micrometers. NSL is based on the self-assembly of micro- or nanometer sized spheres into monolayers. It allows for easy substrate structuring on wafer scale. The manufactured electrode is combined with a liquid crystalline polymer-stabilized blue phase, which facilitates sub-millisecond electrical switching of the diffraction efficiency at adiffractionangle of 21.4°."}],"file":[{"date_updated":"2018-08-21T12:02:06Z","creator":"hclaudia","date_created":"2018-08-21T12:02:06Z","file_size":4327427,"file_name":"Two-dimensional switchable blue phase gratings manufactured by nanosphere lithography.pdf","file_id":"3998","access_level":"closed","content_type":"application/pdf","success":1,"relation":"main_file"}],"publication":"Optics Express 25"},{"doi":"10.1039/c6cp08874k","title":"Kinetics of ozone decomposition in porous In2O3 monoliths","date_created":"2021-10-08T11:07:31Z","author":[{"last_name":"Klawinski","full_name":"Klawinski, Danielle","first_name":"Danielle"},{"last_name":"Weinberger","full_name":"Weinberger, Christian","id":"11848","first_name":"Christian"},{"first_name":"Dominik","full_name":"Klaus, Dominik","last_name":"Klaus"},{"first_name":"Jan-Henrik","full_name":"Smått, Jan-Henrik","last_name":"Smått"},{"full_name":"Tiemann, Michael","id":"23547","orcid":"0000-0003-1711-2722","last_name":"Tiemann","first_name":"Michael"},{"last_name":"Wagner","full_name":"Wagner, Thorsten","first_name":"Thorsten"}],"date_updated":"2023-01-24T07:38:08Z","citation":{"chicago":"Klawinski, Danielle, Christian Weinberger, Dominik Klaus, Jan-Henrik Smått, Michael Tiemann, and Thorsten Wagner. “Kinetics of Ozone Decomposition in Porous In2O3 Monoliths.” Physical Chemistry Chemical Physics, 2017, 10326–32. https://doi.org/10.1039/c6cp08874k.","ieee":"D. Klawinski, C. Weinberger, D. Klaus, J.-H. Smått, M. Tiemann, and T. Wagner, “Kinetics of ozone decomposition in porous In2O3 monoliths,” Physical Chemistry Chemical Physics, pp. 10326–10332, 2017, doi: 10.1039/c6cp08874k.","ama":"Klawinski D, Weinberger C, Klaus D, Smått J-H, Tiemann M, Wagner T. Kinetics of ozone decomposition in porous In2O3 monoliths. Physical Chemistry Chemical Physics. Published online 2017:10326-10332. doi:10.1039/c6cp08874k","apa":"Klawinski, D., Weinberger, C., Klaus, D., Smått, J.-H., Tiemann, M., & Wagner, T. (2017). Kinetics of ozone decomposition in porous In2O3 monoliths. Physical Chemistry Chemical Physics, 10326–10332. https://doi.org/10.1039/c6cp08874k","short":"D. Klawinski, C. Weinberger, D. Klaus, J.-H. Smått, M. Tiemann, T. Wagner, Physical Chemistry Chemical Physics (2017) 10326–10332.","mla":"Klawinski, Danielle, et al. “Kinetics of Ozone Decomposition in Porous In2O3 Monoliths.” Physical Chemistry Chemical Physics, 2017, pp. 10326–32, doi:10.1039/c6cp08874k.","bibtex":"@article{Klawinski_Weinberger_Klaus_Smått_Tiemann_Wagner_2017, title={Kinetics of ozone decomposition in porous In2O3 monoliths}, DOI={10.1039/c6cp08874k}, journal={Physical Chemistry Chemical Physics}, author={Klawinski, Danielle and Weinberger, Christian and Klaus, Dominik and Smått, Jan-Henrik and Tiemann, Michael and Wagner, Thorsten}, year={2017}, pages={10326–10332} }"},"page":"10326-10332","year":"2017","publication_status":"published","publication_identifier":{"issn":["1463-9076","1463-9084"]},"quality_controlled":"1","language":[{"iso":"eng"}],"article_type":"original","user_id":"23547","department":[{"_id":"35"},{"_id":"2"},{"_id":"307"}],"_id":"25916","status":"public","abstract":[{"text":"

We determine ozone decomposition on indium oxide by utilizing the gas transducing properties of hierarchically porous monoliths.

","lang":"eng"}],"type":"journal_article","publication":"Physical Chemistry Chemical Physics"},{"date_created":"2021-07-07T09:06:32Z","author":[{"last_name":"Bobzin","full_name":"Bobzin, K.","first_name":"K."},{"last_name":"Brögelmann","full_name":"Brögelmann, T.","first_name":"T."},{"first_name":"G.","full_name":"Grundmeier, G.","last_name":"Grundmeier"},{"full_name":"de los Arcos de Pedro, Maria Teresa","id":"54556","last_name":"de los Arcos de Pedro","first_name":"Maria Teresa"},{"first_name":"M.","last_name":"Wiesing","full_name":"Wiesing, M."},{"first_name":"N.C.","full_name":"Kruppe, N.C.","last_name":"Kruppe"}],"date_updated":"2023-01-24T08:12:04Z","doi":"10.1016/j.surfcoat.2017.07.080","title":"A Contribution to explain the Mechanisms of Adhesive Wear in Plastics Processing by example of Polycarbonate","publication_identifier":{"issn":["0257-8972"]},"publication_status":"published","page":"464-473","citation":{"chicago":"Bobzin, K., T. Brögelmann, G. 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Grundmeier, Physical Chemistry Chemical Physics (2017) 180–190."},"year":"2017","publication_identifier":{"issn":["1463-9076","1463-9084"]},"publication_status":"published","doi":"10.1039/c7cp05373h","title":"Analysis of dispersive interactions at polymer/TiAlN interfaces by means of dynamic force spectroscopy","date_created":"2021-07-07T09:04:54Z","author":[{"first_name":"M.","last_name":"Wiesing","full_name":"Wiesing, M."},{"last_name":"de los Arcos de Pedro","id":"54556","full_name":"de los Arcos de Pedro, Maria Teresa","first_name":"Maria Teresa"},{"full_name":"Gebhard, M.","last_name":"Gebhard","first_name":"M."},{"first_name":"A.","full_name":"Devi, A.","last_name":"Devi"},{"first_name":"Guido","last_name":"Grundmeier","id":"194","full_name":"Grundmeier, Guido"}],"date_updated":"2023-01-24T08:40:53Z","status":"public","abstract":[{"text":"

Dispersion forces due to polarizable subsurface layers govern TiAlN/polymer interactions and decrease by 50% when oxidizing TiAlN to form TiAlO.

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