Amine-Boranes as Transfer Hydrogenation and Hydrogenation Reagents: A Mechanistic Perspective

Lau Samantha; Gasperini Danila; Webster Ruth L.

首页> 外文期刊>Angewandte Chemie >Amine-Boranes as Transfer Hydrogenation and Hydrogenation Reagents: A Mechanistic Perspective

【24h】

Amine-Boranes as Transfer Hydrogenation and Hydrogenation Reagents: A Mechanistic Perspective

机译：胺 - 硼烷作为转移氢化和氢化试剂：机械透视

获取原文

获取原文并翻译 | 示例

获取外文期刊封面封底 >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

Transfer hydrogenation (TH) has historically been dominated by Meerwein-Ponndorf-Verley (MPV) reactions. However, with growing interest in amine-boranes, not least ammonia-borane (H3N.BH3), as potential hydrogen storage materials, these compounds have also started to emerge as an alternative reagent in TH reactions. In this Review we discuss TH chemistry using H3N.BH3 and their analogues (amine-boranes and metal amidoboranes) as sacrificial hydrogen donors. Three distinct pathways were considered: 1) classical TH, 2) nonclassical TH, and 3) hydrogenation. Simple experimental mechanistic probes can be employed to distinguish which pathway is operating and computational analysis can corroborate or discount mechanisms. We find that the pathway in operation can be perturbed by changing the temperature, solvent, amine-borane, or even the substrate used in the system, and subsequently assignment of the mechanism can become nontrivial.

机译：历史上，转移氢化反应（TH）主要由Meerwein-Ponndorf-Verley（MPV）反应控制。然而，随着人们对胺硼烷，尤其是氨硼烷（H3N.BH3）作为潜在储氢材料的兴趣日益浓厚，这些化合物也开始成为TH反应中的替代试剂。在这篇综述中，我们讨论了使用H3N的TH化学。BH3及其类似物（胺硼烷和金属酰胺硼烷）作为牺牲氢供体。我们考虑了三种不同的途径：1）经典TH，2）非经典TH，以及3）氢化。可以使用简单的实验机械探针来区分哪条路径正在运行，计算分析可以证实或低估机制。我们发现，通过改变温度、溶剂、胺硼烷，甚至系统中使用的底物，操作中的路径可能会受到干扰，随后，机制的分配可能变得不重要。

著录项

来源
《Angewandte Chemie》 |2021年第26期|共23页
作者
Lau Samantha; Gasperini Danila; Webster Ruth L.;
展开▼
作者单位

Univ Bath Dept Chem Claverton Down Bath Avon England;

Univ Bath Dept Chem Claverton Down Bath Avon England;

Univ Bath Dept Chem Claverton Down Bath Avon England;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类应用化学;
关键词
amineamp; 8211; boranes; hydrogenation; mechanisms; solvolysis; transfer hydrogenation;

机译：胺类;8211;硼烷;加氢;机制;溶质分解;转移加氢;

相似文献

外文文献
中文文献
专利

1. Catalytic transfer hydrogenation of biomass-derived furfural to furfuryl alcohol with formic acid as hydrogen donor over CuCs-MCM catalyst [J] . Tao Wang, Juan Du, Yong Sun, 中国化学快报（英文版） . 2021,第003期
2. Science Letters: Hydrogen transfer reduction of ketones using formic acid as a hydrogen donor under hydrothermal conditions [J] . Zheng SHEN, Fang-ming JIN, Ya-lei ZHANG, 浙江大学学报（英文版）（A辑：应用物理和工程） . 2009,第011期
3. Hydrogen transfer reduction of ketones using formic acid as a hydrogen donor under hydrothermal conditions [J] . Zheng SHEN, Fang-ming JIN, Ya-lei ZHANG, 浙江大学学报：A卷英文版 . 2009,第011期
4. A new catalyst for hydrogen transfer hydrogenation of acetophenone [J] . 中国化学快报（英文版） . 1997,第003期
5. Mechanistic insights into tandem amine-borane dehydrogenation and alkene hydrogenation catalyzed by [Pd(NHC)(PCy_3)] [J] . Zhang Yi, Wang Ping, Gao Yun, International journal of hydrogen energy . 2018,第4期

机译：[Pd（NHC）（PCy_3）]催化的串联胺-硼烷脱氢和烯烃加氢的机理研究
6. Synthetic and mechanistic studies of metal-free transfer hydrogenations applying polarized olefins as hydrogen acceptors and amine borane adducts as hydrogen donors [J] . Xianghua Yang, Thomas Fox, Heinz Berke Organic & biomolecular chemistry . 2012,第4期

机译：使用极化烯烃作为氢受体和胺硼烷加合物作为氢供体的无金属转移氢化的合成和机理研究
7. Concerted or stepwise hydrogen transfer in the transfer hydrogenation of acetophenone catalyzed by ruthenium-acetamido complex: A theoretical mechanistic investigation [J] . Guo X., Tang Y., Zhang X., The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory . 2011,第44期

机译：钌-乙酰氨基配合物催化苯乙酮转移加氢中的协同或逐步氢转移：理论机理研究
8. MECHANISTIC INSIGHTS INTO METAL LEWIS ACID-MEDIATED CATALYTIC TRANSFER HYDROGENATION REACTIONS [C] . Matthew Gilkey, Dionisios Vlachos, Bingjun Xu Joint Conference on Chemisty . 2016

机译：机械洞察金属路易斯酸介导的催化转移氢化反应
9. Mechanisms of electron transfer and hydrogen activation in selected triruthenium clusters with multiple bridging ligands. Part I. The attenuation of radical reactivity in triruthenium trihydrido(alkylidyne) clusters. Electrochemistry and kinetics of decomposition of the 47-electron cluster radical, via a disproportionation path. Part II. The activation of molecular hydrogen at transition metal centers via kinetics and mechanism of reversible oxidative addition of hydrogen across the metal-metal bond of (mu-hydrogen)(2)Ruthenium(3)(Carbon monoxide)(8)(mu-phosphorus(t-BU)(2))(2). [D] . Bierdeman, David John. 2000

机译：具有多个桥联配体的选定三钌簇中电子转移和氢活化的机理。第一部分。三氢三钌（亚烷基）簇中自由基反应性的减弱。通过歧化路径分解47电子簇自由基的电化学和动力学。第二部分通过（mu-hydrogen）（2）钌（3）（一氧化碳）（8）（mu-phosphorus（）的金属-金属键上氢的可逆氧化加成反应的动力学和机理激活过渡金属中心的分子氢t-BU）（2））（2）。
10. Catalytic Carbonyl Allylation Propargylation and Vinylation from the Alcohol or Aldehyde Oxidation Level via C-C Bond Forming Hydrogenation and Transfer Hydrogenation: A Departure from Preformed Organometallic Reagents [O] . John F. Bower, In Su Kim, Ryan L. Patman, -1

机译：通过C-C键形成加氢和转移加氢从醇或醛的氧化级催化羰基烯丙基化炔丙基化和乙烯基化：与预先形成的有机金属试剂不同
11. Final Report for the DOE-BES Program Mechanistic Studies of Activated Hydrogen Release from Amine-Boranes [O] . Sneddon, Larry G., Baker, R. Thomas 2013

机译：DOE-BEs计划的最终报告从胺 - 硼烷中释放活性氢的机理研究
12. Hydrogen exchange pathways between arenes and dihydroarenes: An experimental and mechanistic modeling study of high temperature hydrogen transfer pathways [R] . Autrey, T. S. , Cleveland, E. A. , Camaioni, D. M. , 1994

机译：芳烃和二氢芳烃之间的氢交换途径：高温氢转移途径的实验和机理建模研究

Amine-Boranes as Transfer Hydrogenation and Hydrogenation Reagents: A Mechanistic Perspective

摘要

著录项

相似文献

相关主题

期刊订阅