Journal
TETRAHEDRON
Volume 83, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.tet.2021.131986
Keywords
Nitrogen fixation; Ammonia; Silylamine; Dinitrogen; Transition metals
Categories
Funding
- CREST, JST [JPMJCR1541]
- JSPS [JP18K19093, JP19K23645, JP20H05671, JP20K15295, JP20K21203]
- MEXT
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Previously, well-defined transition metal complexes capable of catalyzing nitrogen reduction were limited to molybdenum and iron complexes, which are relevant to biological nitrogen fixation. However, in the last five years, other transition metal complexes not related to nitrogenases have been reported to exhibit catalytic activity towards nitrogen fixation under mild reaction conditions.
Until 2015, well-defined transition metal complexes capable of catalyzing nitrogen reduction into ammonia or silylamines were limited to molybdenum and iron complexes, which are relevant to biological nitrogen fixation. In the last five years, other transition metal complexes not related to nitrogenases have been reported to exhibit catalytic activity toward nitrogen fixation under mild reaction conditions. This review article describes the historical background and recent advances on the conversion of dinitrogen into ammonia or silylamines catalyzed by transition metal complexes other than vanadium, molybdenum, and iron complexes. (C) 2021 Elsevier Ltd. All rights reserved.
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