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J. Heske et al., “When water becomes an integral part of carbon – combining theory and experiment to understand the zeolite-like water adsorption properties of porous C2N materials,” Journal of Materials Chemistry A, vol. 9, no. 39, pp. 22563–22572, 2021, doi: 10.1039/d1ta05122a.","short":"J.J. Heske, R. Walczak, J.D. Epping, S. Youk, S.K. Sahoo, M. Antonietti, T. Kühne, M. Oschatz, Journal of Materials Chemistry A 9 (2021) 22563–22572.","bibtex":"@article{Heske_Walczak_Epping_Youk_Sahoo_Antonietti_Kühne_Oschatz_2021, title={When water becomes an integral part of carbon – combining theory and experiment to understand the zeolite-like water adsorption properties of porous C2N materials}, volume={9}, DOI={10.1039/d1ta05122a}, number={39}, journal={Journal of Materials Chemistry A}, publisher={Royal Society of Chemistry (RSC)}, author={Heske, Julian Joachim and Walczak, Ralf and Epping, Jan D. and Youk, Sol and Sahoo, Sudhir K. and Antonietti, Markus and Kühne, Thomas and Oschatz, Martin}, year={2021}, pages={22563–22572} }","mla":"Heske, Julian Joachim, et al. “When Water Becomes an Integral Part of Carbon – Combining Theory and Experiment to Understand the Zeolite-like Water Adsorption Properties of Porous C2N Materials.” Journal of Materials Chemistry A, vol. 9, no. 39, Royal Society of Chemistry (RSC), 2021, pp. 22563–72, doi:10.1039/d1ta05122a.","ama":"Heske JJ, Walczak R, Epping JD, et al. When water becomes an integral part of carbon – combining theory and experiment to understand the zeolite-like water adsorption properties of porous C2N materials. Journal of Materials Chemistry A. 2021;9(39):22563-22572. doi:10.1039/d1ta05122a","apa":"Heske, J. J., Walczak, R., Epping, J. D., Youk, S., Sahoo, S. K., Antonietti, M., Kühne, T., & Oschatz, M. (2021). When water becomes an integral part of carbon – combining theory and experiment to understand the zeolite-like water adsorption properties of porous C2N materials. Journal of Materials Chemistry A, 9(39), 22563–22572. https://doi.org/10.1039/d1ta05122a","chicago":"Heske, Julian Joachim, Ralf Walczak, Jan D. Epping, Sol Youk, Sudhir K. Sahoo, Markus Antonietti, Thomas Kühne, and Martin Oschatz. “When Water Becomes an Integral Part of Carbon – Combining Theory and Experiment to Understand the Zeolite-like Water Adsorption Properties of Porous C2N Materials.” Journal of Materials Chemistry A 9, no. 39 (2021): 22563–72. https://doi.org/10.1039/d1ta05122a."},"year":"2021","type":"journal_article","title":"When water becomes an integral part of carbon – combining theory and experiment to understand the zeolite-like water adsorption properties of porous C2N materials","publication_identifier":{"issn":["2050-7488","2050-7496"]},"publication_status":"published","department":[{"_id":"613"}],"doi":"10.1039/d1ta05122a","date_updated":"2022-10-10T08:09:44Z","language":[{"iso":"eng"}]},{"date_updated":"2022-10-10T08:12:16Z","doi":"10.1038/s41598-021-81635-4","language":[{"iso":"eng"}],"title":"Hydrogen bond dynamics of interfacial water molecules revealed from two-dimensional vibrational sum-frequency generation spectroscopy","department":[{"_id":"613"}],"publication_status":"published","publication_identifier":{"issn":["2045-2322"]},"_id":"33645","intvolume":" 11","issue":"1","article_number":"2456","year":"2021","citation":{"short":"D. Ojha, T. Kühne, Scientific Reports 11 (2021).","ieee":"D. Ojha and T. Kühne, “Hydrogen bond dynamics of interfacial water molecules revealed from two-dimensional vibrational sum-frequency generation spectroscopy,” Scientific Reports, vol. 11, no. 1, Art. no. 2456, 2021, doi: 10.1038/s41598-021-81635-4.","chicago":"Ojha, Deepak, and Thomas Kühne. “Hydrogen Bond Dynamics of Interfacial Water Molecules Revealed from Two-Dimensional Vibrational Sum-Frequency Generation Spectroscopy.” Scientific Reports 11, no. 1 (2021). https://doi.org/10.1038/s41598-021-81635-4.","ama":"Ojha D, Kühne T. Hydrogen bond dynamics of interfacial water molecules revealed from two-dimensional vibrational sum-frequency generation spectroscopy. Scientific Reports. 2021;11(1). doi:10.1038/s41598-021-81635-4","apa":"Ojha, D., & Kühne, T. (2021). Hydrogen bond dynamics of interfacial water molecules revealed from two-dimensional vibrational sum-frequency generation spectroscopy. Scientific Reports, 11(1), Article 2456. https://doi.org/10.1038/s41598-021-81635-4","mla":"Ojha, Deepak, and Thomas Kühne. “Hydrogen Bond Dynamics of Interfacial Water Molecules Revealed from Two-Dimensional Vibrational Sum-Frequency Generation Spectroscopy.” Scientific Reports, vol. 11, no. 1, 2456, Springer Science and Business Media LLC, 2021, doi:10.1038/s41598-021-81635-4.","bibtex":"@article{Ojha_Kühne_2021, title={Hydrogen bond dynamics of interfacial water molecules revealed from two-dimensional vibrational sum-frequency generation spectroscopy}, volume={11}, DOI={10.1038/s41598-021-81635-4}, number={12456}, journal={Scientific Reports}, publisher={Springer Science and Business Media LLC}, author={Ojha, Deepak and Kühne, Thomas}, year={2021} }"},"type":"journal_article","abstract":[{"text":"AbstractVibrational sum-frequency generation (vSFG) spectroscopy allows the study of the structure and dynamics of interfacial systems. In the present work, we provide a simple recipe, based on a narrowband IR pump and broadband vSFG probe technique, to computationally obtain the two-dimensional vSFG spectrum of water molecules at the air–water interface. Using this technique, to study the time-dependent spectral evolution of hydrogen-bonded and free water molecules, we demonstrate that at the interface, the vibrational spectral dynamics of the free OH bond is faster than that of the bonded OH mode.","lang":"eng"}],"user_id":"71051","publication":"Scientific Reports","keyword":["Multidisciplinary"],"author":[{"last_name":"Ojha","full_name":"Ojha, Deepak","first_name":"Deepak"},{"first_name":"Thomas","full_name":"Kühne, Thomas","last_name":"Kühne","id":"49079"}],"publisher":"Springer Science and Business Media LLC","date_created":"2022-10-10T08:12:00Z","status":"public","volume":11},{"type":"journal_article","citation":{"apa":"Pylaeva, S., Marx, P., Singh, G., Kühne, T., Roemelt, M., & Elgabarty, H. (2021). Organic Mixed-Valence Compounds and the Overhauser Effect in Insulating Solids. The Journal of Physical Chemistry A, 125(3), 867–874. https://doi.org/10.1021/acs.jpca.0c11296","ama":"Pylaeva S, Marx P, Singh G, Kühne T, Roemelt M, Elgabarty H. Organic Mixed-Valence Compounds and the Overhauser Effect in Insulating Solids. The Journal of Physical Chemistry A. 2021;125(3):867-874. doi:10.1021/acs.jpca.0c11296","chicago":"Pylaeva, Svetlana, Patrick Marx, Gurjot Singh, Thomas Kühne, Michael Roemelt, and Hossam Elgabarty. “Organic Mixed-Valence Compounds and the Overhauser Effect in Insulating Solids.” The Journal of Physical Chemistry A 125, no. 3 (2021): 867–74. https://doi.org/10.1021/acs.jpca.0c11296.","bibtex":"@article{Pylaeva_Marx_Singh_Kühne_Roemelt_Elgabarty_2021, title={Organic Mixed-Valence Compounds and the Overhauser Effect in Insulating Solids}, volume={125}, DOI={10.1021/acs.jpca.0c11296}, number={3}, journal={The Journal of Physical Chemistry A}, publisher={American Chemical Society (ACS)}, author={Pylaeva, Svetlana and Marx, Patrick and Singh, Gurjot and Kühne, Thomas and Roemelt, Michael and Elgabarty, Hossam}, year={2021}, pages={867–874} }","mla":"Pylaeva, Svetlana, et al. “Organic Mixed-Valence Compounds and the Overhauser Effect in Insulating Solids.” The Journal of Physical Chemistry A, vol. 125, no. 3, American Chemical Society (ACS), 2021, pp. 867–74, doi:10.1021/acs.jpca.0c11296.","short":"S. Pylaeva, P. Marx, G. Singh, T. Kühne, M. Roemelt, H. Elgabarty, The Journal of Physical Chemistry A 125 (2021) 867–874.","ieee":"S. Pylaeva, P. Marx, G. Singh, T. Kühne, M. Roemelt, and H. Elgabarty, “Organic Mixed-Valence Compounds and the Overhauser Effect in Insulating Solids,” The Journal of Physical Chemistry A, vol. 125, no. 3, pp. 867–874, 2021, doi: 10.1021/acs.jpca.0c11296."},"year":"2021","page":"867-874","issue":"3","intvolume":" 125","_id":"33644","volume":125,"status":"public","date_created":"2022-10-10T08:10:52Z","author":[{"first_name":"Svetlana","full_name":"Pylaeva, Svetlana","last_name":"Pylaeva","id":"78888"},{"last_name":"Marx","first_name":"Patrick","full_name":"Marx, Patrick"},{"last_name":"Singh","full_name":"Singh, Gurjot","first_name":"Gurjot"},{"full_name":"Kühne, Thomas","first_name":"Thomas","id":"49079","last_name":"Kühne"},{"last_name":"Roemelt","full_name":"Roemelt, Michael","first_name":"Michael"},{"last_name":"Elgabarty","id":"60250","first_name":"Hossam","orcid":"0000-0002-4945-1481","full_name":"Elgabarty, Hossam"}],"publisher":"American Chemical Society (ACS)","publication":"The Journal of Physical Chemistry A","keyword":["Physical and Theoretical Chemistry"],"user_id":"71051","language":[{"iso":"eng"}],"doi":"10.1021/acs.jpca.0c11296","date_updated":"2022-10-10T08:11:18Z","publication_status":"published","publication_identifier":{"issn":["1089-5639","1520-5215"]},"department":[{"_id":"613"}],"title":"Organic Mixed-Valence Compounds and the Overhauser Effect in Insulating Solids"},{"citation":{"short":"J. Kessler, F. Calcavecchia, T. Kühne, Advanced Theory and Simulations 4 (2021).","ieee":"J. Kessler, F. Calcavecchia, and T. Kühne, “Artificial Neural Networks as Trial Wave Functions for Quantum Monte Carlo,” Advanced Theory and Simulations, vol. 4, no. 4, Art. no. 2000269, 2021, doi: 10.1002/adts.202000269.","ama":"Kessler J, Calcavecchia F, Kühne T. Artificial Neural Networks as Trial Wave Functions for Quantum Monte Carlo. Advanced Theory and Simulations. 2021;4(4). doi:10.1002/adts.202000269","apa":"Kessler, J., Calcavecchia, F., & Kühne, T. (2021). Artificial Neural Networks as Trial Wave Functions for Quantum Monte Carlo. Advanced Theory and Simulations, 4(4), Article 2000269. https://doi.org/10.1002/adts.202000269","chicago":"Kessler, Jan, Francesco Calcavecchia, and Thomas Kühne. “Artificial Neural Networks as Trial Wave Functions for Quantum Monte Carlo.” Advanced Theory and Simulations 4, no. 4 (2021). https://doi.org/10.1002/adts.202000269.","bibtex":"@article{Kessler_Calcavecchia_Kühne_2021, title={Artificial Neural Networks as Trial Wave Functions for Quantum Monte Carlo}, volume={4}, DOI={10.1002/adts.202000269}, number={42000269}, journal={Advanced Theory and Simulations}, publisher={Wiley}, author={Kessler, Jan and Calcavecchia, Francesco and Kühne, Thomas}, year={2021} }","mla":"Kessler, Jan, et al. “Artificial Neural Networks as Trial Wave Functions for Quantum Monte Carlo.” Advanced Theory and Simulations, vol. 4, no. 4, 2000269, Wiley, 2021, doi:10.1002/adts.202000269."},"year":"2021","type":"journal_article","_id":"33649","intvolume":" 4","article_number":"2000269","issue":"4","publication":"Advanced Theory and Simulations","keyword":["Multidisciplinary","Modeling and Simulation","Numerical Analysis","Statistics and Probability"],"author":[{"id":"65425","last_name":"Kessler","full_name":"Kessler, Jan","orcid":"0000-0002-8705-6992","first_name":"Jan"},{"last_name":"Calcavecchia","first_name":"Francesco","full_name":"Calcavecchia, Francesco"},{"first_name":"Thomas","full_name":"Kühne, Thomas","last_name":"Kühne","id":"49079"}],"publisher":"Wiley","volume":4,"date_created":"2022-10-10T08:15:23Z","status":"public","user_id":"71051","language":[{"iso":"eng"}],"date_updated":"2022-10-10T08:15:37Z","doi":"10.1002/adts.202000269","department":[{"_id":"613"}],"publication_status":"published","publication_identifier":{"issn":["2513-0390","2513-0390"]},"title":"Artificial Neural Networks as Trial Wave Functions for Quantum Monte Carlo"},{"doi":"10.1063/5.0037319","date_updated":"2022-10-10T08:14:57Z","language":[{"iso":"eng"}],"title":"Artificial neural networks for the kinetic energy functional of non-interacting fermions","publication_status":"published","publication_identifier":{"issn":["0021-9606","1089-7690"]},"department":[{"_id":"613"}],"article_number":"074107","issue":"7","_id":"33648","intvolume":" 154","citation":{"bibtex":"@article{Ghasemi_Kühne_2021, title={Artificial neural networks for the kinetic energy functional of non-interacting fermions}, volume={154}, DOI={10.1063/5.0037319}, number={7074107}, journal={The Journal of Chemical Physics}, publisher={AIP Publishing}, author={Ghasemi, Alireza and Kühne, Thomas}, year={2021} }","mla":"Ghasemi, Alireza, and Thomas Kühne. “Artificial Neural Networks for the Kinetic Energy Functional of Non-Interacting Fermions.” The Journal of Chemical Physics, vol. 154, no. 7, 074107, AIP Publishing, 2021, doi:10.1063/5.0037319.","chicago":"Ghasemi, Alireza, and Thomas Kühne. “Artificial Neural Networks for the Kinetic Energy Functional of Non-Interacting Fermions.” The Journal of Chemical Physics 154, no. 7 (2021). https://doi.org/10.1063/5.0037319.","apa":"Ghasemi, A., & Kühne, T. (2021). Artificial neural networks for the kinetic energy functional of non-interacting fermions. The Journal of Chemical Physics, 154(7), Article 074107. https://doi.org/10.1063/5.0037319","ama":"Ghasemi A, Kühne T. Artificial neural networks for the kinetic energy functional of non-interacting fermions. The Journal of Chemical Physics. 2021;154(7). doi:10.1063/5.0037319","ieee":"A. Ghasemi and T. Kühne, “Artificial neural networks for the kinetic energy functional of non-interacting fermions,” The Journal of Chemical Physics, vol. 154, no. 7, Art. no. 074107, 2021, doi: 10.1063/5.0037319.","short":"A. Ghasemi, T. Kühne, The Journal of Chemical Physics 154 (2021)."},"type":"journal_article","year":"2021","user_id":"71051","volume":154,"date_created":"2022-10-10T08:14:44Z","status":"public","keyword":["Physical and Theoretical Chemistry","General Physics and Astronomy"],"publication":"The Journal of Chemical Physics","publisher":"AIP Publishing","author":[{"id":"77282","last_name":"Ghasemi","full_name":"Ghasemi, Alireza","first_name":"Alireza"},{"id":"49079","last_name":"Kühne","full_name":"Kühne, Thomas","first_name":"Thomas"}]},{"title":"A combinatorial study of electrochemical anion intercalation into graphite","department":[{"_id":"613"}],"publication_status":"published","publication_identifier":{"issn":["2053-1591"]},"date_updated":"2022-10-10T08:23:07Z","doi":"10.1088/2053-1591/ac1965","language":[{"iso":"eng"}],"abstract":[{"text":"Abstract\r\n Dual-ion batteries are considered to be an emerging viable energy storage technology owing to their safety, high power capability, low cost, and scalability. Intercalation of anions into a graphite positive electrode provides high operating voltage and improved energy density to such dual-ion batteries. In this work, we have performed a combinatorial study of graphite intercalation compounds considering four anions, namely hexafluorophosphate (PF\r\n \r\n\r\n\r\n \r\n \r\n \r\n \r\n 6\r\n \r\n \r\n −\r\n \r\n \r\n \r\n \r\n ), perchlorate (ClO\r\n \r\n\r\n\r\n \r\n \r\n \r\n \r\n 4\r\n \r\n \r\n −\r\n \r\n \r\n \r\n \r\n ), bis(fluorosulfonyl)imide (FSI−), and bis(trifluoromethanesulfonyl)imide (TFSI−), via first-principles calculations. The structural properties and energetics of the intercalation compounds are compared based on different sizes, geometries, and the physical and chemical properties of the intercalated anions. The staging mechanism of anion intercalation into graphite and the specific capacities, and voltage profiles of the intercalated compounds are investigated. A comparison regarding battery electrochemistry is also done with available experimental observations. Our calculated intercalation energies and voltage profiles show that the initial anion intercalation into graphite is less favorable than subsequent ones for all the anions considered in this study. Although the effect of the size of anions in a graphite cathode on various properties of the intercalated compounds is not as significant as the size of cations in a graphite anode, some distinction between the studied anions can still be made. Among the studied anions, the intercalation compounds based on PF\r\n \r\n\r\n\r\n \r\n \r\n \r\n \r\n 6\r\n \r\n \r\n −\r\n \r\n \r\n \r\n \r\n are the most stable ones. These PF\r\n \r\n\r\n\r\n \r\n \r\n \r\n \r\n 6\r\n \r\n \r\n −\r\n \r\n \r\n \r\n \r\n anions cause relatively small structural deformations of the graphite and have the highest oxidative ability, highest onset voltage, and highest diffusion barrier along the graphene sheets. The overall small diffusion barriers of the anions within graphite explain the high rate capability of dual-ion batteries.","lang":"eng"}],"user_id":"71051","author":[{"full_name":"Chugh, Manjusha","first_name":"Manjusha","id":"71511","last_name":"Chugh"},{"first_name":"Mitisha","full_name":"Jain, Mitisha","last_name":"Jain"},{"first_name":"Gang","full_name":"Wang, Gang","last_name":"Wang"},{"first_name":"Ali Shaygan","full_name":"Nia, Ali Shaygan","last_name":"Nia"},{"last_name":"Mirhosseini","id":"71051","first_name":"Hossein","orcid":"0000-0001-6179-1545","full_name":"Mirhosseini, Hossein"},{"first_name":"Thomas","full_name":"Kühne, Thomas","last_name":"Kühne","id":"49079"}],"publisher":"IOP Publishing","keyword":["Metals and Alloys","Polymers and Plastics","Surfaces","Coatings and Films","Biomaterials","Electronic","Optical and Magnetic Materials"],"publication":"Materials Research Express","volume":8,"status":"public","date_created":"2022-10-10T08:22:50Z","intvolume":" 8","_id":"33655","article_number":"085502","issue":"8","citation":{"mla":"Chugh, Manjusha, et al. “A Combinatorial Study of Electrochemical Anion Intercalation into Graphite.” Materials Research Express, vol. 8, no. 8, 085502, IOP Publishing, 2021, doi:10.1088/2053-1591/ac1965.","bibtex":"@article{Chugh_Jain_Wang_Nia_Mirhosseini_Kühne_2021, title={A combinatorial study of electrochemical anion intercalation into graphite}, volume={8}, DOI={10.1088/2053-1591/ac1965}, number={8085502}, journal={Materials Research Express}, publisher={IOP Publishing}, author={Chugh, Manjusha and Jain, Mitisha and Wang, Gang and Nia, Ali Shaygan and Mirhosseini, Hossein and Kühne, Thomas}, year={2021} }","ama":"Chugh M, Jain M, Wang G, Nia AS, Mirhosseini H, Kühne T. A combinatorial study of electrochemical anion intercalation into graphite. Materials Research Express. 2021;8(8). doi:10.1088/2053-1591/ac1965","apa":"Chugh, M., Jain, M., Wang, G., Nia, A. S., Mirhosseini, H., & Kühne, T. (2021). A combinatorial study of electrochemical anion intercalation into graphite. Materials Research Express, 8(8), Article 085502. https://doi.org/10.1088/2053-1591/ac1965","chicago":"Chugh, Manjusha, Mitisha Jain, Gang Wang, Ali Shaygan Nia, Hossein Mirhosseini, and Thomas Kühne. “A Combinatorial Study of Electrochemical Anion Intercalation into Graphite.” Materials Research Express 8, no. 8 (2021). https://doi.org/10.1088/2053-1591/ac1965.","ieee":"M. Chugh, M. Jain, G. Wang, A. S. Nia, H. Mirhosseini, and T. Kühne, “A combinatorial study of electrochemical anion intercalation into graphite,” Materials Research Express, vol. 8, no. 8, Art. no. 085502, 2021, doi: 10.1088/2053-1591/ac1965.","short":"M. Chugh, M. Jain, G. Wang, A.S. Nia, H. Mirhosseini, T. Kühne, Materials Research Express 8 (2021)."},"year":"2021","type":"journal_article"},{"doi":"10.3390/mi12101212","date_updated":"2022-10-10T08:24:57Z","language":[{"iso":"eng"}],"title":"Full Assignment of Ab-Initio Raman Spectra at Finite Temperatures Using Wannier Polarizabilities: Application to Cyclohexane Molecule in Gas Phase","publication_identifier":{"issn":["2072-666X"]},"publication_status":"published","department":[{"_id":"613"}],"article_number":"1212","issue":"10","_id":"33658","intvolume":" 12","citation":{"mla":"Partovi-Azar, Pouya, and Thomas Kühne. “Full Assignment of Ab-Initio Raman Spectra at Finite Temperatures Using Wannier Polarizabilities: Application to Cyclohexane Molecule in Gas Phase.” Micromachines, vol. 12, no. 10, 1212, MDPI AG, 2021, doi:10.3390/mi12101212.","bibtex":"@article{Partovi-Azar_Kühne_2021, title={Full Assignment of Ab-Initio Raman Spectra at Finite Temperatures Using Wannier Polarizabilities: Application to Cyclohexane Molecule in Gas Phase}, volume={12}, DOI={10.3390/mi12101212}, number={101212}, journal={Micromachines}, publisher={MDPI AG}, author={Partovi-Azar, Pouya and Kühne, Thomas}, year={2021} }","apa":"Partovi-Azar, P., & Kühne, T. (2021). Full Assignment of Ab-Initio Raman Spectra at Finite Temperatures Using Wannier Polarizabilities: Application to Cyclohexane Molecule in Gas Phase. Micromachines, 12(10), Article 1212. https://doi.org/10.3390/mi12101212","ama":"Partovi-Azar P, Kühne T. Full Assignment of Ab-Initio Raman Spectra at Finite Temperatures Using Wannier Polarizabilities: Application to Cyclohexane Molecule in Gas Phase. Micromachines. 2021;12(10). doi:10.3390/mi12101212","chicago":"Partovi-Azar, Pouya, and Thomas Kühne. “Full Assignment of Ab-Initio Raman Spectra at Finite Temperatures Using Wannier Polarizabilities: Application to Cyclohexane Molecule in Gas Phase.” Micromachines 12, no. 10 (2021). https://doi.org/10.3390/mi12101212.","ieee":"P. Partovi-Azar and T. Kühne, “Full Assignment of Ab-Initio Raman Spectra at Finite Temperatures Using Wannier Polarizabilities: Application to Cyclohexane Molecule in Gas Phase,” Micromachines, vol. 12, no. 10, Art. no. 1212, 2021, doi: 10.3390/mi12101212.","short":"P. Partovi-Azar, T. Kühne, Micromachines 12 (2021)."},"type":"journal_article","year":"2021","user_id":"71051","abstract":[{"lang":"eng","text":"We demonstrate how to fully ascribe Raman peaks simulated using ab initio molecular dynamics to specific vibrations in the structure at finite temperatures by means of Wannier functions. Here, we adopt our newly introduced method for the simulation of the Raman spectra in which the total polarizability of the system is expressed as a sum over Wannier polarizabilities. The assignment is then based on the calculation of partial Raman activities arising from self- and/or cross-correlations between different types of Wannier functions in the system. Different types of Wannier functions can be distinguished based on their spatial spread. To demonstrate the predictive power of this approach, we applied it to the case of a cyclohexane molecule in the gas phase and were able to fully assign the simulated Raman peaks."}],"volume":12,"status":"public","date_created":"2022-10-10T08:24:47Z","author":[{"last_name":"Partovi-Azar","full_name":"Partovi-Azar, Pouya","first_name":"Pouya"},{"last_name":"Kühne","id":"49079","first_name":"Thomas","full_name":"Kühne, Thomas"}],"publisher":"MDPI AG","publication":"Micromachines","keyword":["Electrical and Electronic Engineering","Mechanical Engineering","Control and Systems Engineering"]},{"issue":"25","intvolume":" 125","_id":"33651","page":"13749-13758","year":"2021","type":"journal_article","citation":{"short":"S.K. Sahoo, I.F. Teixeira, A. Naik, J.J. Heske, D. Cruz, M. Antonietti, A. Savateev, T. Kühne, The Journal of Physical Chemistry C 125 (2021) 13749–13758.","ieee":"S. K. Sahoo et al., “Photocatalytic Water Splitting Reaction Catalyzed by Ion-Exchanged Salts of Potassium Poly(heptazine imide) 2D Materials,” The Journal of Physical Chemistry C, vol. 125, no. 25, pp. 13749–13758, 2021, doi: 10.1021/acs.jpcc.1c03947.","chicago":"Sahoo, Sudhir K., Ivo F. Teixeira, Aakash Naik, Julian Joachim Heske, Daniel Cruz, Markus Antonietti, Aleksandr Savateev, and Thomas Kühne. “Photocatalytic Water Splitting Reaction Catalyzed by Ion-Exchanged Salts of Potassium Poly(Heptazine Imide) 2D Materials.” The Journal of Physical Chemistry C 125, no. 25 (2021): 13749–58. https://doi.org/10.1021/acs.jpcc.1c03947.","apa":"Sahoo, S. K., Teixeira, I. F., Naik, A., Heske, J. J., Cruz, D., Antonietti, M., Savateev, A., & Kühne, T. (2021). Photocatalytic Water Splitting Reaction Catalyzed by Ion-Exchanged Salts of Potassium Poly(heptazine imide) 2D Materials. The Journal of Physical Chemistry C, 125(25), 13749–13758. https://doi.org/10.1021/acs.jpcc.1c03947","ama":"Sahoo SK, Teixeira IF, Naik A, et al. Photocatalytic Water Splitting Reaction Catalyzed by Ion-Exchanged Salts of Potassium Poly(heptazine imide) 2D Materials. 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