Photoredox catalysis in nickel-catalyzed C–H functionalization

Scholarly Works

• Rej, S.; Amos, S. G. E.; Kleij, A. W. Photochemical C–H Borylation in Organic Synthesis. ACS Catalysis 2025, 15, 1753–1770. doi:10.1021/acscatal.4c07169
• Entgelmeier, L.; Mori, S.; Sendo, S.; Yamaguchi, R.; Suzuki, R.; Yanai, T.; García Mancheño, O.; Ohmatsu, K.; Ooi, T. Zwitterionic Acridinium Amidate: A Nitrogen‐Centered Radical Catalyst for Photoinduced Direct Hydrogen Atom Transfer. Angewandte Chemie 2024, 136. doi:10.1002/ange.202404890
• Entgelmeier, L.-M.; Mori, S.; Sendo, S.; Yamaguchi, R.; Suzuki, R.; Yanai, T.; García Mancheño, O.; Ohmatsu, K.; Ooi, T. Zwitterionic Acridinium Amidate: A Nitrogen-Centered Radical Catalyst for Photoinduced Direct Hydrogen Atom Transfer. Angewandte Chemie (International ed. in English) 2024, 63, e202404890. doi:10.1002/anie.202404890
• Wang, H.; XU, T. Dual nickel- and photoredox-catalyzed carbon-carbon bond formations via reductive cross-coupling involving organohalides. Chem Catalysis 2024, 4, 100952. doi:10.1016/j.checat.2024.100952
• Zhang, J.; She, P.; Xu, Q.; Tian, F.; Rao, H.; Qin, J.-S.; Bonin, J.; Robert, M. Efficient Visible-Light-Driven Carbon Dioxide Reduction using a Bioinspired Nickel Molecular Catalyst. ChemSusChem 2024, 17, e202301892. doi:10.1002/cssc.202301892
• Kim, S.; Kim, J.; Tambe, S. D.; Cho, E. J. Ni-catalyzed regioselective C–C bond formation of 1,1-disubstituted allenes with aldehydes. Organic Chemistry Frontiers 2024, 11, 816–821. doi:10.1039/d3qo01800h
• Kenyon, J.; Larrosa, I. Electrochemical Ruthenium‐Catalysed Directed C−H Functionalization of Arenes with Boron Reagents. Advanced Synthesis & Catalysis 2024, 366, 830–837. doi:10.1002/adsc.202301184
• Zhou, Y.; Wang, Y.; Xu, P.; Han, W.; Xiong, H.-Y.; Zhang, G. Synthesis of Indolyl Phenyl Diketones through Visible-Light-Promoted Ni-Catalyzed Intramolecular Cyclization/Oxidation Sequence of Ynones. ACS organic & inorganic Au 2023, 4, 241–247. doi:10.1021/acsorginorgau.3c00060
• Zlotin, S. G.; Egorova, K. S.; Ananikov, V. P.; Akulov, A. A.; Varaksin, M. V.; Chupakhin, O. N.; Charushin, V. N.; Bryliakov, K. P.; Averin, A. D.; Beletskaya, I. P.; Dolengovski, E. L.; Budnikova, Y. H.; Sinyashin, O. G.; Gafurov, Z. N.; Kantyukov, A. O.; Yakhvarov, D. G.; Aksenov, A. V.; Elinson, M. N.; Nenajdenko, V. G.; Chibiryaev, A. M.; Nesterov, N. S.; Kozlova, E. A.; Martyanov, O. N.; Balova, I. A.; Sorokoumov, V. N.; Guk, D. A.; Beloglazkina, E. K.; Lemenovskii, D. A.; Chukicheva, I. Y.; Frolova, L. L.; Izmest'ev, E. S.; Dvornikova, I. A.; Popov, A. V.; Kutchin, A. V.; Borisova, D. M.; Kalinina, A. A.; Muzafarov, A. M.; Kuchurov, I. V.; Maximov, A. L.; Zolotukhina, A. V. The green chemistry paradigm in modern organic synthesis. Russian Chemical Reviews 2023, 92, RCR5104. doi:10.59761/rcr5104
• Lee, G. S.; Hong, S. H. Direct C(sp3)-H Acylation by Mechanistically Controlled Ni/Ir Photoredox Catalysis. Accounts of chemical research 2023, 56, 2170–2184. doi:10.1021/acs.accounts.3c00252
• Grover, J.; Prakash, G.; Teja, C.; Lahiri, G. K.; Maiti, D. Metal-free photoinduced hydrogen atom transfer assisted C(sp3)–H thioarylation. Green Chemistry 2023, 25, 3431–3436. doi:10.1039/d3gc00359k
• Piszel, P. E.; Orzolek, B. J.; Olszewski, A. K.; Rotella, M. E.; Spiewak, A. M.; Kozlowski, M. C.; Weix, D. J. Protodemetalation of (Bipyridyl)Ni(II)-Aryl Complexes Shows Evidence for Five-, Six-, and Seven-Membered Cyclic Pathways. Journal of the American Chemical Society 2023, 145, 8517–8528. doi:10.1021/jacs.3c00618
• Kumar,, V.; Maayuri,, R.; Mantry, and, L.; Gandeepan, P. doi:10.1002/9781119774167.ch4
• Zarkadoulas, A.; Mitsopoulou, C. A. Coordination compounds of nickel, palladium, and platinum. Photochemistry and Photophysics of Coordination Compounds; Elsevier, 2023; pp 255–291. doi:10.1016/b978-0-12-824493-7.00009-5
• Chatani, N. 1.14 Nickel-Catalyzed Directed C—H Functionalization. Base-Metal Catalysis 1; Georg Thieme Verlag KG, 2023. doi:10.1055/sos-sd-238-00266
• Zhu, F.; Li, C.-X.; Wu, Z.-L.; Cai, T.; Wen, W.; Guo, Q.-X. Chiral aldehyde-nickel dual catalysis enables asymmetric α-propargylation of amino acids and stereodivergent synthesis of NP25302. Nature communications 2022, 13, 7290. doi:10.1038/s41467-022-35062-2
• Kumari, R.; Singh, M. Spiroheterocyclic Photocatalyst for Reducing QHIn-Persistent Pollutants, Dyes, and Transition-Metal Ions Cocatalyzed with Electrolytes. ACS omega 2022, 7, 40203–40229. doi:10.1021/acsomega.2c05103
• Maity, B.; Scott, T. R.; Stroscio, G. D.; Gagliardi, L.; Cavallo, L. The Role of Excited States of LNiII/III(Aryl)(Halide) Complexes in Ni–Halide Bond Homolysis in the Arylation of Csp3–H Bonds. ACS Catalysis 2022, 12, 13215–13224. doi:10.1021/acscatal.2c04284
• Ma, S.; Wang, S.; Cao, J.; Liu, F. Rapid and Accurate Estimation of Activation Free Energy in Hydrogen Atom Transfer-Based C-H Activation Reactions: From Empirical Model to Artificial Neural Networks. ACS omega 2022, 7, 34858–34867. doi:10.1021/acsomega.2c03252
• Schlegel, M.; Qian, S.; Nicewicz, D. A. Aliphatic C-H Functionalization Using Pyridine N-Oxides as H-Atom Abstraction Agents. ACS catalysis 2022, 12, 10499–10505. doi:10.1021/acscatal.2c02997

Explore citations to this article at