%0 Journal Article %1 schnierle2023solid %A Schnierle, Marc %A Klostermann, Sina %A Kaya, Elif %A Li, Zheng %A Dittmann, Daniel %A Rieg, Carolin %A Estes, Deven Paul %A Kästner, Johannes %A Ringenberg, Mark R. %A Dyballa, Michael %D 2023 %I American Chemical Society %J Inorganic chemistry %K mult ubs_10003 ubs_20003 ubs_30038 ubs_30039 ubs_40065 ubs_40331 unibibliografie wos %N 19 %P 7283–7295 %R 10.1021/acs.inorgchem.3c00351 %T How Solid Surfaces Control Stability and Interactions of Supported Cationic Cu-I(dppf) Complexes : A Solid-State NMR Study %V 62

@article{schnierle2023solid, added-at = {2023-11-22T14:12:10.000+0100}, affiliation = {Estes, DP; Dyballa, M (Corresponding Author), Univ Stuttgart, Inst Tech Chem, D-70569 Stuttgart, Germany. Schnierle, Marc; Ringenberg, Mark R., Univ Stuttgart, Inst Inorgan Chem, D-70569 Stuttgart, Germany. Klostermann, Sina; Kaestner, Johannes, Univ Stuttgart, Inst Theoret Chem, D-70569 Stuttgart, Germany. Kaya, Elif; Li, Zheng; Dittmann, Daniel; Rieg, Carolin; Estes, Deven P.; Dyballa, Michael, Univ Stuttgart, Inst Tech Chem, D-70569 Stuttgart, Germany.}, author = {Schnierle, Marc and Klostermann, Sina and Kaya, Elif and Li, Zheng and Dittmann, Daniel and Rieg, Carolin and Estes, Deven Paul and Kästner, Johannes and Ringenberg, Mark R. and Dyballa, Michael}, biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2aa64e07376eb12329855aa6b8e5b7eba/unibiblio}, doi = {10.1021/acs.inorgchem.3c00351}, interhash = {271e2d06e848cdbeb63bfc573095344c}, intrahash = {aa64e07376eb12329855aa6b8e5b7eba}, issn = {{0020-1669} and {1520-510X}}, journal = {Inorganic chemistry}, keywords = {mult ubs_10003 ubs_20003 ubs_30038 ubs_30039 ubs_40065 ubs_40331 unibibliografie wos}, language = {eng}, number = 19, orcid-numbers = {Dyballa, Michael/0000-0002-8883-1145}, pages = {7283–7295}, publisher = {American Chemical Society}, research-areas = {Chemistry}, timestamp = {2023-11-24T11:05:34.000+0100}, title = {How Solid Surfaces Control Stability and Interactions of Supported Cationic Cu-I(dppf) Complexes : A Solid-State NMR Study}, unique-id = {WOS:000985615500001}, volume = 62, year = 2023 }