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Exploring the full catalytic cycle of rhodium(i)–BINAP-catalysed isomerisation of allylic amines: a graph theory approach for path optimisation

机译：探索铑（i）–BINAP催化烯丙基胺异构化的完整催化循环：路径优化的图论方法

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摘要

We explored the reaction mechanism of the cationic rhodium(i)–BINAP complex catalysed isomerisation of allylic amines using the artificial force induced reaction method with the global reaction route mapping strategy, which enabled us to search for various reaction paths without assumption of transition states. The entire reaction network was reproduced in the form of a graph, and reasonable paths were selected from the complicated network using Prim’s algorithm. As a result, a new dissociative reaction mechanism was proposed. Our comprehensive reaction path search provided rationales for the E/Z and S/R selectivities of the stereoselective reaction.

机译：我们使用人工诱导反应方法和整体反应路线图策略探索了阳离子铑（i）-BINAP络合物催化烯丙基胺异构化的反应机理，这使我们能够在不假设过渡态的情况下寻找各种反应路径。整个反应网络以图形的形式再现，并使用Prim的算法从复杂的网络中选择了合理的路径。因此，提出了一种新的离解反应机理。我们全面的反应路径搜索为立体选择反应的E / Z和S / R选择性提供了理论依据。

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期刊名称 Chemical Science
作者
Takayoshi Yoshimura; Satoshi Maeda; Tetsuya Taketsugu; Masaya Sawamura; Keiji Morokuma; Seiji Mori;
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年(卷),期 2017(8),6
年度 2017
页码 4475–4488
总页数 14
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
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专利

1. Exploring the full catalytic cycle of rhodium(I)–BINAP-catalysed isomerisation of allylic amines: a graph theory approach for path optimisation [J] . Takayoshi Yoshimura, Satoshi Maeda, Tetsuya Taketsugu, Chemical science . 2017,第6期

机译：探索铑（I）–BINAP催化烯丙基胺异构化的完整催化循环：路径优化的图论方法
2. Rhodium(III)-catalyzed C-H alkylation of heterocycles with allylic alcohols in water: A reusable catalytic system for the synthesis of beta-aryl ketones [J] . Li Xiang, Zhang Feng, Wu Dan, Tetrahedron . 2018,第51期

机译：铑（III） - 用水中用烯丙基醇催化杂环的C-H烷基化：一种可重复使用的催化系统，用于合成β-芳基酮
3. Rhodium-catalysed isomerisation of allylic alcohols in water at ambient emperature [J] . Nanna Ahlsten, Helena Lundberg, Belen Martin-Matute Green chemistry . 2010,第9期

机译：室温下铑在水中的烯丙基醇的异构化
4. Microkinetic Study of Oxygenate and Hydrocarbon Formation from Syngas on Rhodium and Cobalt Surfaces: Effect of Site Structure on Catalytic Cycles [C] . Neeti Kapur, Chaitanya Sampara, Xianghong Hao, NSTI-Nanotech 2010;NSTI nanotechnology conference and expo;Bio Nanotech 2010;NSTI bio nano conference and expo;Microtech 2010;Microtechnology conference and expo;WCM 2010;Workshop on compact modeling;NSTI nanotech ventures;TechConnect summit;Clean technology . 2010

机译：铑和钴表面上合成气中氧气和碳氢化合物形成的微动力学研究：位点结构对催化循环的影响
5. Catalytic asymmetric allylic and benzylic carbon-hydrogen bond insertion induced by rhodium carbenoids. [D] . Jin, Qihui. 2004

机译：铑类胡萝卜素诱导的催化不对称烯丙基和苄基碳氢键插入。
6. Rhodium-catalyzed oxidative amidation of allylic alcohols and aldehydes: effective conversion of amines and anilines into amides [O] . Zhao Wu, Kami L. Hull 2016

机译：铑催化的烯丙醇和醛的氧化酰胺化：胺和苯胺有效转化为酰胺
7. Exploring the full catalytic cycle of rhodium(I)BINAP-catalysed isomerisation of allylic amines : a graph theory approach for path optimisation [O] . Yoshimura, Takayoshi, Maeda, Satoshi, Taketsugu, Tetsuya, 2017

机译：探索铑（I）BINAP催化的烯丙基胺异构化的完整催化循环：路径优化的图论方法
8. Heavy Paths and Cycles in Weighted Graphs [R] . Zhang, S., Li, X., Broersma, H. J. 1998

机译：加权图中的重路径和周期

Exploring the full catalytic cycle of rhodium(i)–BINAP-catalysed isomerisation of allylic amines: a graph theory approach for path optimisation

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