Isolated Iron Single-Atomic Site-Catalyzed Chemoselective Transfer Hydrogenation of Nitroarenes to Arylamines

Weng Chon Cheong; Wenjuan Yang; Jian Zhang; Yang Li; Di Zhao; Shoujie Liu; Konglin Wu; Qinggang Liu; Chao Zhang; Dingsheng Wang; Qing Peng; C. Chen; Yadong Li

doi:10.1021/acsami.9b09125

Isolated Iron Single-Atomic Site-Catalyzed Chemoselective Transfer Hydrogenation of Nitroarenes to Arylamines

Weng Chon Cheong, Wenjuan Yang, Jian Zhang, Yang Li, Di Zhao, Shoujie Liu, Konglin Wu, Qinggang Liu, Chao Zhang, Dingsheng Wang, Qing Peng, C. Chen^*, Yadong Li

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

84 Citations (Scopus)

Abstract

Selective hydrogenation of nitroarenes to arylamines is a great challenge because of the complicated mechanism and competitive hydrogenation of reducible functional groups. Isolated single-Atomic site catalysts, benefitting from their uniform and well-defined catalytic sites, are promising to achieve high activity and selectivity. Herein, we prepared an isolated iron single-Atomic catalyst supported on ordered mesoporous nitrogen-doped carbon (Fe₁/N-C). The as-prepared Fe₁/N-C showed excellent activity and tolerance for functional groups in the transfer hydrogenation of nitroarenes over hydrazine hydrate. Density functional theory calculations revealed that the single atomically dispersed, partially positively charged Fe atoms and the lowered energy barrier collectively contribute to the superior hydrogenation performances for nitroarenes.

Original language	English
Pages (from-to)	33819-33824
Number of pages	6
Journal	ACS Applied Materials and Interfaces
Volume	11
Issue number	37
DOIs	https://doi.org/10.1021/acsami.9b09125
Publication status	Published - 18 Sept 2019
Externally published	Yes

Keywords

DFT calculation
hydrazine hydrate
mesoporous
nitroarene
selective hydrogenation
single-Atom catalysis

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10.1021/acsami.9b09125

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title = "Isolated Iron Single-Atomic Site-Catalyzed Chemoselective Transfer Hydrogenation of Nitroarenes to Arylamines",

abstract = "Selective hydrogenation of nitroarenes to arylamines is a great challenge because of the complicated mechanism and competitive hydrogenation of reducible functional groups. Isolated single-Atomic site catalysts, benefitting from their uniform and well-defined catalytic sites, are promising to achieve high activity and selectivity. Herein, we prepared an isolated iron single-Atomic catalyst supported on ordered mesoporous nitrogen-doped carbon (Fe1/N-C). The as-prepared Fe1/N-C showed excellent activity and tolerance for functional groups in the transfer hydrogenation of nitroarenes over hydrazine hydrate. Density functional theory calculations revealed that the single atomically dispersed, partially positively charged Fe atoms and the lowered energy barrier collectively contribute to the superior hydrogenation performances for nitroarenes.",

keywords = "DFT calculation, hydrazine hydrate, mesoporous, nitroarene, selective hydrogenation, single-Atom catalysis",

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doi = "10.1021/acsami.9b09125",

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T1 - Isolated Iron Single-Atomic Site-Catalyzed Chemoselective Transfer Hydrogenation of Nitroarenes to Arylamines

AU - Cheong, Weng Chon

AU - Yang, Wenjuan

AU - Zhang, Jian

AU - Li, Yang

AU - Zhao, Di

AU - Liu, Shoujie

AU - Wu, Konglin

AU - Liu, Qinggang

AU - Zhang, Chao

AU - Wang, Dingsheng

AU - Peng, Qing

AU - Chen, C.

AU - Li, Yadong

PY - 2019/9/18

Y1 - 2019/9/18

N2 - Selective hydrogenation of nitroarenes to arylamines is a great challenge because of the complicated mechanism and competitive hydrogenation of reducible functional groups. Isolated single-Atomic site catalysts, benefitting from their uniform and well-defined catalytic sites, are promising to achieve high activity and selectivity. Herein, we prepared an isolated iron single-Atomic catalyst supported on ordered mesoporous nitrogen-doped carbon (Fe1/N-C). The as-prepared Fe1/N-C showed excellent activity and tolerance for functional groups in the transfer hydrogenation of nitroarenes over hydrazine hydrate. Density functional theory calculations revealed that the single atomically dispersed, partially positively charged Fe atoms and the lowered energy barrier collectively contribute to the superior hydrogenation performances for nitroarenes.

AB - Selective hydrogenation of nitroarenes to arylamines is a great challenge because of the complicated mechanism and competitive hydrogenation of reducible functional groups. Isolated single-Atomic site catalysts, benefitting from their uniform and well-defined catalytic sites, are promising to achieve high activity and selectivity. Herein, we prepared an isolated iron single-Atomic catalyst supported on ordered mesoporous nitrogen-doped carbon (Fe1/N-C). The as-prepared Fe1/N-C showed excellent activity and tolerance for functional groups in the transfer hydrogenation of nitroarenes over hydrazine hydrate. Density functional theory calculations revealed that the single atomically dispersed, partially positively charged Fe atoms and the lowered energy barrier collectively contribute to the superior hydrogenation performances for nitroarenes.

KW - DFT calculation

KW - hydrazine hydrate

KW - mesoporous

KW - nitroarene

KW - selective hydrogenation

KW - single-Atom catalysis

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U2 - 10.1021/acsami.9b09125

DO - 10.1021/acsami.9b09125

M3 - Article

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AN - SCOPUS:85072508384

SN - 1944-8244

VL - 11

SP - 33819

EP - 33824

JO - ACS Applied Materials and Interfaces

JF - ACS Applied Materials and Interfaces

IS - 37

ER -

Isolated Iron Single-Atomic Site-Catalyzed Chemoselective Transfer Hydrogenation of Nitroarenes to Arylamines

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Keywords

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