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Harnessing the Power of the Water-Gas Shift Reaction for Organic Synthesis

机译：利用水煤气变换反应的力量进行有机合成

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>Since its original discovery over a century ago, the water-gas shift reaction (WGSR) has played a crucial role in industrial chemistry, providing a source of H2 to feed fundamental industrial transformations such as the Haber–Bosch synthesis of ammonia. Although the production of hydrogen remains nowadays the major application of the WGSR, the advent of homogeneous catalysis in the 1970s marked the beginning of a synergy between WGSR and organic chemistry. Thus, the reducing power provided by the CO/H2O couple has been exploited in the synthesis of fine chemicals; not only hydrogenation-type reactions, but also catalytic processes that require a reductive step for the turnover of the catalytic cycle. Despite the potential and unique features of the WGSR, its applications in organic synthesis remain largely underdeveloped. The topic will be critically reviewed herein, with the expectation that an increased awareness may stimulate new, creative work in the area.

机译：> S 水煤气变换反应（WGSR）自一个多世纪以来首次发现以来，在工业化学中起着至关重要的作用，它提供了H2的来源来满足诸如Haber–博世合成氨。尽管如今氢的产生仍然是WGSR的主要应用，但1970年代均相催化的出现标志着WGSR与有机化学之间协同作用的开始。因此，在精细化学品的合成中已利用了CO / H2O对提供的还原能力。不仅是氢化型反应，还包括需要还原步骤以进行催化循环的催化过程。尽管WGSR具有潜在和独特的功能，但其在有机合成中的应用仍未得到充分开发。本文将对该主题进行严格审查，以期人们的意识增强可能会刺激该地区的新创意工作。

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期刊名称 other
作者
Andrea Ambrosi; Scott E. Denmark;
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作者单位

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年(卷),期 -1(55),40
年度 -1
页码 12164–12189
总页数 74
原文格式 PDF
正文语种
中图分类
关键词
carbon monoxide heterogeneous catalysis homogeneous catalysis reduction transition metals;

机译：一氧化碳;非均相催化;均相催化;还原;过渡金属;

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专利

1. Harnessing the Power of the Water-Gas Shift Reaction for Organic Synthesis [J] . Ambrosi Andrea, Denmark Scott E. Angewandte Chemie . 2016,第40期

机译：利用水煤气变换反应的力量进行有机合成
2. Reverse water-gas shift reaction: steady state isotope switching study of the reverse water-gas shift reaction using in situ DRIFTS and a Pt/ceria catalyst [J] . Jacobs G, Davis BH Applied Catalysis, A. General: An International Journal Devoted to Catalytic Science and Its Applications . 2005,第1a2期

机译：逆水煤气变换反应：使用原位DRIFTS和Pt / Cera催化剂进行逆水煤气变换反应的稳态同位素转换研究
3. Reverse water-gas shift reaction:steady state isotope switching study of the reverse water-gas shift reaction using in situ DRIFTS and a Pt/ceria catalyst [J] . Gary Jacobs, Burtron H.Davis Applied Catalysis, A. General: An International Journal Devoted to Catalytic Science and Its Applications . 2005,第1a2期

机译：逆水煤气变换反应：使用原位DRIFTS和Pt /二氧化铈催化剂进行逆水煤气变换反应的稳态同位素转换研究
4. FISCHER-TROPSCH SYNTHESIS: EFFECT OF K LOADING ON THE WATER-GAS SHIFT REACTION DURING FISCHER-TROPSCH SYNTHESIS ON FE BASED CATALYSTS [C] . W. Ma, G. Jacobs, U.M. Graham ACS National Meeting and Exhibition . 2013

机译：Fischer-Tropsch合成：K加载对Fischer-Tropsch合成中水性换水反应的影响Fe催化剂
5. Kinetic Experimental and Modeling Studies on Iron-Based Catalysts Promoted with Lanthana for the High-Temperature Water-Gas Shift Reaction Characterized with Operando UV-Visible Spectroscopy and for the Fischer-Tropsch Synthesis. [D] . Hallac, Basseem Bishara. 2014

机译：Lanthana促进的铁基催化剂的动力学实验和模型研究，用于用操作紫外可见光谱表征的高温水煤气变换反应和费-托合成。
6. Addition of Sodium Additives for Improved Performanceof Water-Gas Shift Reaction over Ni-Based Catalysts [O] . Na Li, Zhiyuan Li, *, 2021

机译：添加钠添加剂以改善性能基于Ni基催化剂的水 - 换水反应
7. Harnessing the Power of the Water‐Gas Shift Reaction for Organic Synthesis [O] . Andrea Ambrosi, Scott E. Denmark 2016

机译：利用用于有机合成的水气移反应的力量
8. Flame Synthesis of Nanosized Cu-Ce-O, Ni-Ce-O, and Fe-Ce-O Catalysts for the Water-Gas Shift (WGS) Reaction [R] . Pati, R. K., Lee, I. C., Hou, S., 2009

机译：用于水煤气变换（WGs）反应的纳米Cu-Ce-O，Ni-Ce-O和Fe-Ce-O催化剂的火焰合成

Harnessing the Power of the Water-Gas Shift Reaction for Organic Synthesis

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