Publikationen und Konferenzbeiträge


Konferenzbeiträge

  • T. Deprie and A. Patyk, Prospective Environmental, Economic and Social LCA of Carbon Sink products from Artificial Photosynthesis; 17th Society and Materials (SAM) International Conference 2023, Karlsruhe.
  • D. Lörch et al., Negative Emissions based on Photoelectrochemical Methods: Surface Investigation of Potential Catalysts, EGU 2023, Vienna.
  • A. Samanta et al., Climatic impacts of carbon dioxide removal by artificial photosynthesis, DKRZ User Workshop 2022, Hamburg.
  • A. Samanta et al.,Comparing the effects of large scale solar farms on climate and regional surface energy budget in different climate models, EGU 2023, Vienna.
  • M. Adam et al., Consequences of the spatial configuration of Carbon Dioxide Removal for its potential to withdraw atmospheric CO2, EGU 2023, Vienna.
  • S. Diekmeier et al., Storage Potentials for artificial CO2 products in Germany, EGU 2023, Vienna.
  • M. Adam, et al., Investigating potential climatic side-effects of a large-scale deployment of photoelectrochemical devices for carbon dioxide removal, EGU 2022, Vienna.

Publikationen

  • M. Adam, T. Kleinen, M. M. May, K. Rehfeld, Land conversions not climate effects are the dominant consequence of sun-driven CO2 capture, conversion, and sequestration, under review.
  • D. Lörch, A. Mohammed, H. Euchner, J. Timm, J. Hiller, P. Bogdanoff, M. M. May, From CO2 to solid carbon: reaction mechanism, active species, and conditioning the Ce-alloyed GaInSn catalyst, Preprint, doi:10.26434/chemrxiv-2024-1t2ss
  • N. Droseros, P. Ferdowsi, E. O. Martinez, M. Saliba, N. Banerji, and D. Tsokkou. Excited-state dynamics of MaPbBr3: Coexistence of excitons and free charge carriers at ultrafast times. Journal of Physical Chemistry C, 2024. doi:10.1021/acs.jpcc.3c08509.
  • J. Leist, J. Kim, H. Euchner, and M. M. May. The relevance of structural variability in the time-domain for computational reflection anisotropy spectroscopy at solid-liquid interfaces. Journal of Physics – Condensed Matter, 36, 18, 2024. doi:10.1088/1361-648X/ad215b.
  • F. Keller, J. Doehn, A. Gross, and M. Busch. Exploring the mechanism of the electrochemical polymerization of CO2 to hard carbon over CeO2(110). Journal of Physical Chemistry C, 128, 15, 62806293, 2024. doi:10.1021/acs.jpcc.3c08356.
  • J. Azizi, A. Gross, and H. Euchner. Computational investigation of carbon based anode materials for Li- and post-Li- ion batteries. ChemSusChem, 2024. doi:10.1002/cssc.202301493.
  • T. Kodalle, M. M. Byranvand, M. Goudreau, C. Das, R. Roy, M. Kot, S. Briesenick, M. Zohdi, M. Rai, N. Tamura, J. I. Flege, W. Hempel, C. M. Sutter-Fella, and M. Saliba. An integrated deposition and passivation strategy for controlled crystallization of 2d/3d halide perovskite films. Advanced Materials, 2024. doi: 10.1002/adma.202309154.
  • W. Zia, M. M. Byranvand, T. Rudolph, M. Rai, M. Kot, C. Das, M. Kedia, M. Zohdi, W. Zuo, V. Yeddu, M. I. Saidaminov, J. I. Flege, T. Kirchartz, and M. Saliba. MaPbCl3 light absorber for highest voltage perovskite solar cells. ACS Energy Letters, 9, 3, 10171024, 2024. doi:10.1021/acsenergylett.3c02777.
  • W. Zuo, W. Fu, K. Wang, C. Das, M. M. Byranvand, K.-L. Wang, A. Chaudhary,J. Lim, M. Li, and M. Saliba. Crystallization dynamics and stabilization of fapbi3 single-phase perovskite. Energy & Environmental Science, 17, 4, 2024. doi:10.1039/d3ee02404k.
  • E. A. Schmitt, M. Guidat, M. Nusshoer, A.-L. Renz, K. Moeller, M. Flieg, D. Loerch, M. Koelbach, and M. M. May. Photoelectrochemical Schlenk cell func-tionalization of multi-junction water-splitting photo-electrodes. Cell Reports Physical Science, 4, 10, 2023. doi:10.1016/j.xcrp.2023.101606.
  • M. Saliba, E. Unger, L. Etgar, J. Luo, and T. J. Jacobsson. A systematic discrepancy between the short circuit current and the integrated quantum eciency in perovskite solar cells. Nature Communications, 14, 1, 2023. doi:10.1038/s41467-023-41263-0.
  • K. Hossain, A. Kulkarni, U. Bothra, B. Klingebiel, T. Kirchartz, M. Saliba, and D. Kabra. Resolving the hydrophobicity of the Me-4PACz hole transport layer for inverted perovskite solar cells with eciency >20%. ACS Energy Letters, 8, 9, 38603867, 2023. doi:10.1021/acsenergylett.3c01385.
  • Q. Guesnay, C. J. McMonagle, D. Chernyshov, W. Zia, A. Wieczorek, S. Siol, M. Saliba, C. Ballif, and C. M. Wol. Substoichiometric mixing of metal halide powders and their single-source evaporation for perovskite photovoltaics. ACS Photonics, 10, 9, 30873094, 2023. doi:10.1021/acsphotonics.3c00438.
  • W. Zuo, M. M. Byranvand, T. Kodalle, M. Zohdi, J. Lim, B. Carlsen, T. M. Friedlmeier, M. Kot, C. Das, J. I. Flege, W. Zong, A. Abate, C. M. Sutter-Fella, M. Li, and M. Saliba. Coordination chemistry as a universal strategy for a controlled perovskite crystallization. Advanced Materials, 35, 39, 2023. doi:10.1002/adma.202302889.
  • W. Zia, C. A. Aranda, J. Pospisil, A. Kovalenko, M. Rai, C. Momblona, S. Gorji, G. Munoz-Matutano, and M. Saliba. Impact of low-temperature seed-assisted growth on the structural and optoelectronic properties of MaPbBr3 single crystals. Chemistry of Materials, 35, 14, 54585467, 2023. doi:10.1021/acs.chemmater.3c00780.
  • C.-C. Lin, Z. Chen, H. Euchner, T. Eisenmann, K. Geng, T. Diemant, S. Fang, C.H. Yen, C.-C. Hu, S. Passerini, and D. Bresser. Nanotwinned copper foil for zero excess lithium-metal batteries. ACS Applied Energy Materials, 21402150, 2023. doi:10.1021/acsaem.2c02688.
  • M. M. May and K. Rehfeld. Negative emissions as the new frontier of photoelectrochemical CO2 reduction. Advanced Energy Materials, 12, 21, 2022. doi:10.1002/aenm.202103801.
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