Publications of Gangfeng Huang

Wang, C.; Li, H.; Li, J.; Wang, C.; Yu, J.; Shima, S.; Huang, G.; Pan, H.-J.: Reconstitution of [Fe]-hydrogenase with model complexes reveals functional Roles of methyl groups in the metallocofactor. Journal of the American Chemical Society (2025)

Kaltschnee, L.; Pravdivtsev, A. N.; Gehl, M.; Huang, G.; Stoychev, G. L.; Riplinger, C.; Keitel, M.; Neese, F.; Hövener, J.-B.; Auer, A. A. et al.; Griesinger, C.; Shima, S.; Glöggler, S.: Parahydrogen-enhanced magnetic resonance identification of intermediates in [Fe]-hydrogenase catalysis. Nature Catalysis 7 (12), pp. 1417 - 1429 (2024)

Pan, H.-J.; Huang, G.; Wodrich, M. D.; Tirani, F. F.; Ataka, K.; Shima, S.; Hu, X.: Diversifying metal-ligand cooperative catalysis in semi-synthetic [Mn]-hydrogenases. Angewandte Chemie International Edition 60 (24), pp. 13350 - 13357 (2021)

Huang, G.; Wagner, T.; Ermler, U.; Shima, S.: Methanogenesis involves direct hydride transfer from H₂ to an organic substrate. Nature Reviews Chemistry 4 (2), pp. 213 - 221 (2020)

Huang, G.; Arriaza Gallardo, F. J.; Wagner, T.; Shima, S.: Crystal structures of [Fe]-hydrogenase from Methanolacinia paynteri suggest a path of the FeGP-cofactor incorporation process. Inorganics 8 (9), 50 (2020)

Kaltschnee, L.; Pravdivtsev, A. N.; Gehl, M.; Huang, G.; Stoychev, G. L.; Riplinger, C.; Keitel, M.; Neese, F.; Hövener, J.-B.; Auer, A. A. et al.; Griesinger, C.; Shima, S.; Glöggler, S.: Sensitivity-enhanced magnetic resonance reveals hydrogen intermediates during active [Fe]-hydrogenase catalysis. bioRxiv: the preprint server for biology, 2023.05.10.540199 (2023)