Reactivity of Iron Hydride Anions Fe2Hn-(n = 0-3) with Carbon Dioxide

Yun Zhu Liu; Xiao Na Li; Sheng Gui He

doi:10.1021/acs.jpca.0c06986

Reactivity of Iron Hydride Anions Fe₂H_n^-(n = 0-3) with Carbon Dioxide

Yun Zhu Liu, Xiao Na Li^*, Sheng Gui He^*

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

9 引用（Scopus）

摘要

The hydrogenation of CO2 into value-added complexes is of great importance for both environmental and economic issues. Metal hydrides are good models for the active sites to explore the nature of CO2 hydrogenation; however, the fundamental insights into C-H bond formation are still far from clear because of the complexity of real-life catalysts. Herein, gas-phase reactions of the Fe2Hn- (n = 0-3) anions with CO2 were investigated using mass spectrometry and quantum chemical calculations. The experimental results showed that the reduction of CO2 into CO dominates all of these reactions, whereas Fe2H- and Fe2H2- can induce the hydrogenation of CO2 effectively to give rise to products Fe(HCO2)- and HFe(HCO2)-, respectively. The mechanistic aspects and the reactivity of Fe2Hn- with an increased number of H atoms in CO2 hydrogenation were rationalized by theoretical calculations.

源语言	英语
页（从-至）	8414-8420
页数	7
期刊	Journal of Physical Chemistry A
卷	124
期	41
DOI	https://doi.org/10.1021/acs.jpca.0c06986
出版状态	已出版 - 15 10月 2020
已对外发布	是

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title = "Reactivity of Iron Hydride Anions Fe2Hn-(n = 0-3) with Carbon Dioxide",

abstract = "The hydrogenation of CO2 into value-added complexes is of great importance for both environmental and economic issues. Metal hydrides are good models for the active sites to explore the nature of CO2 hydrogenation; however, the fundamental insights into C-H bond formation are still far from clear because of the complexity of real-life catalysts. Herein, gas-phase reactions of the Fe2Hn- (n = 0-3) anions with CO2 were investigated using mass spectrometry and quantum chemical calculations. The experimental results showed that the reduction of CO2 into CO dominates all of these reactions, whereas Fe2H- and Fe2H2- can induce the hydrogenation of CO2 effectively to give rise to products Fe(HCO2)- and HFe(HCO2)-, respectively. The mechanistic aspects and the reactivity of Fe2Hn- with an increased number of H atoms in CO2 hydrogenation were rationalized by theoretical calculations.",

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AU - Liu, Yun Zhu

AU - Li, Xiao Na

AU - He, Sheng Gui

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PY - 2020/10/15

Y1 - 2020/10/15

N2 - The hydrogenation of CO2 into value-added complexes is of great importance for both environmental and economic issues. Metal hydrides are good models for the active sites to explore the nature of CO2 hydrogenation; however, the fundamental insights into C-H bond formation are still far from clear because of the complexity of real-life catalysts. Herein, gas-phase reactions of the Fe2Hn- (n = 0-3) anions with CO2 were investigated using mass spectrometry and quantum chemical calculations. The experimental results showed that the reduction of CO2 into CO dominates all of these reactions, whereas Fe2H- and Fe2H2- can induce the hydrogenation of CO2 effectively to give rise to products Fe(HCO2)- and HFe(HCO2)-, respectively. The mechanistic aspects and the reactivity of Fe2Hn- with an increased number of H atoms in CO2 hydrogenation were rationalized by theoretical calculations.

AB - The hydrogenation of CO2 into value-added complexes is of great importance for both environmental and economic issues. Metal hydrides are good models for the active sites to explore the nature of CO2 hydrogenation; however, the fundamental insights into C-H bond formation are still far from clear because of the complexity of real-life catalysts. Herein, gas-phase reactions of the Fe2Hn- (n = 0-3) anions with CO2 were investigated using mass spectrometry and quantum chemical calculations. The experimental results showed that the reduction of CO2 into CO dominates all of these reactions, whereas Fe2H- and Fe2H2- can induce the hydrogenation of CO2 effectively to give rise to products Fe(HCO2)- and HFe(HCO2)-, respectively. The mechanistic aspects and the reactivity of Fe2Hn- with an increased number of H atoms in CO2 hydrogenation were rationalized by theoretical calculations.

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Reactivity of Iron Hydride Anions Fe2Hn-(n = 0-3) with Carbon Dioxide

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Reactivity of Iron Hydride Anions Fe₂H_n^-(n = 0-3) with Carbon Dioxide