Experimental and Theoretical Evidence for Relativistic Catalytic Activity in C-H Activation of N-Phenylbenzamide Using a Cationic Iridium Complex

Chinami Takashima; Hisaki Kurita; Hideaki Takano; Yasuhiro Ikabata; Takanori Shibata; Hiromi Nakai

doi:10.1021/acs.jpca.2c04747

Experimental and Theoretical Evidence for Relativistic Catalytic Activity in C-H Activation of N-Phenylbenzamide Using a Cationic Iridium Complex

Chinami Takashima, Hisaki Kurita, Hideaki Takano, Yasuhiro Ikabata, Takanori Shibata, Hiromi Nakai^*

^*この研究の対応する著者

先進理工学部

研究成果: Article › 査読

抄録

This study elucidates that relativistic effect plays a key role in catalytic C-H activation using a cationic Ir complex. Experiments show that the cationic Ir(I)-diphosphine catalyst can be used for the deuterium substitution of N-phenylbenzamide, whereas a cationic Rh(I)-diphosphine catalyst is scarcely effective. Density functional theory calculations, including the relativistic effect, demonstrate a large difference in the reaction energy diagrams for the C-H activation of N-phenylbenzamide between the cationic Ir and Rh catalysts. In particular, the relatively low reaction barrier and considerably stabilized product obtained for the Ir catalysts are rationalized by strong Ir-C and Ir-H interactions, which originate from the relativistic self-consistent d-orbital expansion of Ir.

本文言語	English
ページ（範囲）	7627-7638
ページ数	12
ジャーナル	Journal of Physical Chemistry A
巻	126
号	42
DOI	https://doi.org/10.1021/acs.jpca.2c04747
出版ステータス	Published - 2022 10月 27

ASJC Scopus subject areas

物理化学および理論化学

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10.1021/acs.jpca.2c04747

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title = "Experimental and Theoretical Evidence for Relativistic Catalytic Activity in C-H Activation of N-Phenylbenzamide Using a Cationic Iridium Complex",

abstract = "This study elucidates that relativistic effect plays a key role in catalytic C-H activation using a cationic Ir complex. Experiments show that the cationic Ir(I)-diphosphine catalyst can be used for the deuterium substitution of N-phenylbenzamide, whereas a cationic Rh(I)-diphosphine catalyst is scarcely effective. Density functional theory calculations, including the relativistic effect, demonstrate a large difference in the reaction energy diagrams for the C-H activation of N-phenylbenzamide between the cationic Ir and Rh catalysts. In particular, the relatively low reaction barrier and considerably stabilized product obtained for the Ir catalysts are rationalized by strong Ir-C and Ir-H interactions, which originate from the relativistic self-consistent d-orbital expansion of Ir.",

author = "Chinami Takashima and Hisaki Kurita and Hideaki Takano and Yasuhiro Ikabata and Takanori Shibata and Hiromi Nakai",

note = "Funding Information: Some of the calculations were performed at the Research Center for Computational Science (RCCS), Okazaki Research Facilities, Institutes of Natural Sciences (NINS) (Project: 22-IMS-C044). This study was supported in part by the “Elements Strategy Initiative for Catalysts & Batteries (ESICB)” project (Grant Number JPMXP0112101003) from the Ministry of Education, Culture, Sports, Science, and Technology (MEXT), Japan. This study was also supported in part by a Grant-in-Aid for Scientific Research (Grant Number JP18K14184 and JP21K05002) from the Japan Society for the Promotion of Science (JSPS), Japan. C.T. acknowledges the support of JST SPRING (Grant Number JPMJSP2128). The authors also thank King Hung Nigel Tang (Waseda University) for his experimental support. Publisher Copyright: {\textcopyright} 2022 American Chemical Society. All rights reserved.",

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AU - Takashima, Chinami

AU - Kurita, Hisaki

AU - Takano, Hideaki

AU - Ikabata, Yasuhiro

AU - Shibata, Takanori

AU - Nakai, Hiromi

N1 - Funding Information: Some of the calculations were performed at the Research Center for Computational Science (RCCS), Okazaki Research Facilities, Institutes of Natural Sciences (NINS) (Project: 22-IMS-C044). This study was supported in part by the “Elements Strategy Initiative for Catalysts & Batteries (ESICB)” project (Grant Number JPMXP0112101003) from the Ministry of Education, Culture, Sports, Science, and Technology (MEXT), Japan. This study was also supported in part by a Grant-in-Aid for Scientific Research (Grant Number JP18K14184 and JP21K05002) from the Japan Society for the Promotion of Science (JSPS), Japan. C.T. acknowledges the support of JST SPRING (Grant Number JPMJSP2128). The authors also thank King Hung Nigel Tang (Waseda University) for his experimental support. Publisher Copyright: © 2022 American Chemical Society. All rights reserved.

PY - 2022/10/27

Y1 - 2022/10/27

N2 - This study elucidates that relativistic effect plays a key role in catalytic C-H activation using a cationic Ir complex. Experiments show that the cationic Ir(I)-diphosphine catalyst can be used for the deuterium substitution of N-phenylbenzamide, whereas a cationic Rh(I)-diphosphine catalyst is scarcely effective. Density functional theory calculations, including the relativistic effect, demonstrate a large difference in the reaction energy diagrams for the C-H activation of N-phenylbenzamide between the cationic Ir and Rh catalysts. In particular, the relatively low reaction barrier and considerably stabilized product obtained for the Ir catalysts are rationalized by strong Ir-C and Ir-H interactions, which originate from the relativistic self-consistent d-orbital expansion of Ir.

AB - This study elucidates that relativistic effect plays a key role in catalytic C-H activation using a cationic Ir complex. Experiments show that the cationic Ir(I)-diphosphine catalyst can be used for the deuterium substitution of N-phenylbenzamide, whereas a cationic Rh(I)-diphosphine catalyst is scarcely effective. Density functional theory calculations, including the relativistic effect, demonstrate a large difference in the reaction energy diagrams for the C-H activation of N-phenylbenzamide between the cationic Ir and Rh catalysts. In particular, the relatively low reaction barrier and considerably stabilized product obtained for the Ir catalysts are rationalized by strong Ir-C and Ir-H interactions, which originate from the relativistic self-consistent d-orbital expansion of Ir.

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