Carbon Dioxide Reduction with Dihydrogen and Silanes at Low-Valent Molybdenum Terphenyl Diphosphine Complexes: Reductant Identity Dictates Mechanism

Buss, Joshua A.; Shida, Naoki; He, Tianyi; Agapie, Theodor

doi:10.1021/acscatal.1c02922

Cited by 5 publications

(1 citation statement)

References 81 publications

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“…In this study, the PW91PW91/6-311 + G (2d, 2p) model and M06-2X/cc-pVQZ model in GAMESS software are utilized to optimize the geometries of C 50 , Si 50 Ni-C 50 and Ni-Si 50 nanocages and their complexes with produce of CO 2 reduction reaction including the CO, CH 4 , HCOOH, HCHO and CH 3 OH species [21][22][23][24]. The structures of complexes of important intermediates of processes of CO 2 reduction reactions with acceptable mechanisms are optimized and their frequencies of these optimized complexes are calculated by PW91PW91/6-311 + G (2d, 2p) model and M06-2X/cc-pVQZ model [25][26][27].…”

Section: Computational Detailsmentioning

confidence: 99%

Carbon and silicon nanocages (C50 and Si50) as effective catalysts for CO2 reduction reaction

Wang

Wei

2023

Preprint

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Here, the possible mechanisms for CO2 reduction reaction to produce the CO, CH4, HCOOH, HCHO and CH3OH species on surfaces of carbon and silicon nanocages (C50 and Si50) as catalysts are examined. The Ni adoption effects of C50 and Si50 nanocages on their catalytic activity for CO2 reduction reaction are investigated. The overpotential of CO2 reduction reaction on Ni-C50 and Ni-Si50 nanocages are lower than corresponding values on various metal catalysts, significantly. The rate limiting step for CH4 and CH3OH production is the nanocage-*CO → nanocage-*CHO on Ni-C50 and Ni-Si50 nanocages. The Ni-Si50 nanocage has more negative ΔGreaction values than Ni-C50 nanocage to process the possible reaction steps of CO2 reduction. The overpotential for CH4 and CH3OH production are lower than HCOOH and HCHO creation on Ni-C50 and Ni-Si50 nanocages. The Ni-C50 and Ni-Si50 nanocages can catalyze the processes of CO2 reduction reaction through possible mechanisms with high efficiency.

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