Chiral metal nanoparticles encapsulated by a chiral phosphine cavitand with the tetrakis-BINAP moiety: their remarkable stability toward ligand exchange and thermal racemization

Nishimura Ryo; Yasutake Ryo; Yamada Shota; Sawai Koji; Noura Kazuki; Nakahodo Tsukasa; Fujihara Hisashi

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Chiral metal nanoparticles encapsulated by a chiral phosphine cavitand with the tetrakis-BINAP moiety: their remarkable stability toward ligand exchange and thermal racemization

机译：手性金属膦被具有四-BINAP部分的手性膦空洞包裹的手性纳米粒子：它们对配体交换和热消旋的卓越稳定性

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A chiral phosphine cavitand 1 induced the formation of chiral metal (Ru, Rh, Pd, Ag, Pt, and Au) nanoparticles (NPs). The ligand 1 of the chiral metal NPs prevents both thermal racemization and ligand exchange with a thiol, but the organic molecules can react with the metal surfaces. In contrast to the 1-protected Au NPs, the BINAP-protected Au NPs easily undergo ligand exchange and thermal racemization with aggregation.

机译：手性膦cavitand 1诱导形成手性金属（Ru，Rh，Pd，Ag，Pt和Au）纳米颗粒（NPs）。手性金属NP的配体1既防止了热消旋，也阻止了与硫醇的配体交换，但是有机分子可以与金属表面反应。与1-保护的Au NPs相反，BINAP-保护的Au NPs容易发生配体交换和聚集的热消旋。

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《Dalton transactions: An international journal of inorganic chemistry》 |2016年第11期|共5页
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Nishimura Ryo; Yasutake Ryo; Yamada Shota; Sawai Koji; Noura Kazuki; Nakahodo Tsukasa; Fujihara Hisashi;
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1. Chiral metal nanoparticles encapsulated by a chiral phosphine cavitand with the tetrakis-BINAP moiety: their remarkable stability toward ligand exchange and thermal racemization [J] . Nishimura Ryo, Yasutake Ryo, Yamada Shota, Dalton transactions: An international journal of inorganic chemistry . 2016,第11期

机译：手性金属膦被具有四-BINAP部分的手性膦空洞包裹的手性纳米粒子：它们对配体交换和热消旋的卓越稳定性
2. Stereocontrolled Polymerization of Racemic Lactide with Chiral Initiator: Combining Stereoelection and Chiral Ligand-Exchange Mechanism [J] . Katarzyna Majerska, Andrzej Duda Journal of the American Chemical Society . 2004,第4期

机译：外消旋丙交酯与手性引发剂的立体控制聚合：立体定向和手性配体交换机制的结合。
3. Chirality in Au-9 clusters protected by chiral/achiral mixed bidentate phosphine ligands: influence of the metal core and ligand array [J] . Sato Yasuhiko, Mitani Masaki, Yao Hiroshi Physical chemistry chemical physics: PCCP . 2019,第27期

机译：AU-9集群的手性受手性/脸颊混合二齿磷配体保护：金属芯和配体阵列的影响
4. Effects of size and ligand density on the chirality transfer from chiral- ligand-capped nanoparticles to nematic liquid crystals [C] . Taizo Mori, Anshul Sharma, Ahlam Nemati, Liquid crystals XXI . 2017

机译：大小和配体密度对从手性配体加帽的纳米颗粒向向列液晶的手性转移的影响
5. Copper catalyzed cyclopropanation using chiral [2.2]paracyclophane ligands and activation of naphthalenes toward catalytic hydrogenation by coordination of metal moieties. [D] . Masterson, Douglas Scott. 1999

机译：铜催化使用手性[2.2]对环磷烯配体的环丙烷化反应，并通过金属部分的配合将萘活化为催化氢化反应。
6. Unusual Racemization of Tertiary P‐Chiral Ferrocenyl Phosphines [O] . Dr. John Popp, Dr. Schirin Hanf, Prof. Dr. Evamarie Hey‐Hawkins -1

机译：叔对-手性二茂铁基膦的外消旋
7. Stereocontrolled Polymerization of Racemic Lactide with Chiral Initiator: Combining Stereoelection and Chiral Ligand-Exchange Mechanism [O] . -1

机译：具有手性引发剂的外消旋丙交酯的立体控制聚合：组合立体和手性配体交换机制

Chiral metal nanoparticles encapsulated by a chiral phosphine cavitand with the tetrakis-BINAP moiety: their remarkable stability toward ligand exchange and thermal racemization

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