Oxygen vacancy defects engineering on Cu-doped Co3O4 for promoting effective COS hydrolysis - Details

author：

Guanyu Mu (Guanyu Mu.) ^[1] | Yan Zeng (Yan Zeng.) ^[2] | Yong Zheng (Yong Zheng.) ^[3] (Scholars：郑勇) | Yanning Cao (Yanning Cao.) ^[4] (Scholars：曹彦宁) | Fujian Liu (Fujian Liu.) ^[5] (Scholars：刘福建) | Shijing Liang (Shijing Liang.) ^[6] (Scholars：梁诗景) | Yingying Zhan (Yingying Zhan.) ^[7] (Scholars：詹瑛瑛) | Lilong Jiang (Lilong Jiang.) ^[8] (Scholars：江莉龙)

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CSCD

Abstract：

The　activation　of　H2O　is　a　key　step　of　the　COS　hydrolysis,which　may　be　tuned　by　oxygen　vacancy　defects　in　the　catalysts.Herein,we　have　introduced　Cu　into　Co3O4　to　regulate　the　oxygen　vacancy　defect　content　of　the　catalysts.In　situ　DRIFTS　and　XPS　spectra　reveal　that　COS　and　H2O　are　adsorbed　and　activated　by　oxygen　vacancy.The　10　at％Cu　doped　Co3O4　sample(10Cu-Co3O4)exhibits　the　optimal　activity,100％of　COS　conversion　at　70　℃.The　improved　oxygen　vacancies　of　Cu-Co3O4　accelerate　the　activation　of　H2O　to　form　active-OH.COS　binds　with　hydroxyl　to　form　the　intermediate　HSCO2,and　then　the　activated-OH　on　the　oxygen　vacancy　reacts　with　HSCO2　to　form　HCO3.Meanwhile,the　catalyst　exhibits　high　catalytic　stability　because　copper　species(Cu+/Cu2+)redox　cycle　mitigate　the　sulfation　of　Co3O4(Co2+/Co3+).Our　work　offers　a　promising　approach　for　the　rational　design　of　cobalt-related　catalysts　in　the　highly　efficient　hydrolysis　COS　process.

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[ 1 ] [Lilong Jiang]National Engineering Research Center of Chemical Fertilizer Catalyst,Fuzhou University,Fuzhou,Fujian,350002,China;Qingyuan Innovation Laboratory,Quanzhou,Fujian,362801,China
[ 2 ] [Yong Zheng]National Engineering Research Center of Chemical Fertilizer Catalyst,Fuzhou University,Fuzhou,Fujian,350002,China;Qingyuan Innovation Laboratory,Quanzhou,Fujian,362801,China
[ 3 ] [Guanyu Mu]福州大学
[ 4 ] [Yingying Zhan]National Engineering Research Center of Chemical Fertilizer Catalyst,Fuzhou University,Fuzhou,Fujian,350002,China;Qingyuan Innovation Laboratory,Quanzhou,Fujian,362801,China
[ 5 ] [Fujian Liu]National Engineering Research Center of Chemical Fertilizer Catalyst,Fuzhou University,Fuzhou,Fujian,350002,China;Qingyuan Innovation Laboratory,Quanzhou,Fujian,362801,China
[ 6 ] [Yanning Cao]National Engineering Research Center of Chemical Fertilizer Catalyst,Fuzhou University,Fuzhou,Fujian,350002,China;Qingyuan Innovation Laboratory,Quanzhou,Fujian,362801,China
[ 7 ] [Yan Zeng]福州大学
[ 8 ] [Shijing Liang]National Engineering Research Center of Chemical Fertilizer Catalyst,Fuzhou University,Fuzhou,Fujian,350002,China;Qingyuan Innovation Laboratory,Quanzhou,Fujian,362801,China

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绿色能源与环境（英文版）

ISSN： 2096-2797

CN： 10-1418/TK

Year： 2023

Issue： 3

Volume： 8

Page： 831-841

1 0 . 7

JCR@2023

1 0 . 7 0 0

JCR@2023

ESI Discipline： ENGINEERING;

ESI HC Threshold：35

JCR Journal Grade：1

CAS Journal Grade：1

Cited Count：

WoS CC Cited Count： 0

SCOPUS Cited Count：

ESI Highly Cited Papers on the List： 0 Unfold All

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Chinese Cited Count：

30 Days PV： 4

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