Interfacial engineering of Bi2S3/Ti3C2T x MXene based on work function for rapid photo-excited bacteria-killing

Interfacial engineering of Bi2S3/Ti3C2T x MXene based on work function for rapid photo-excited bacteria-killing

MXenes have emerged as potential antimicrobial materials. Here, the authors report on the creation of a Schottky junction to increase the charge separation between MXenes and semiconductor to increase photodynamic creation of reactive oxygen species under near infrared irradiation for antibacterial...

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Main Authors: Jianfang Li, Zhaoyang Li, Xiangmei Liu, Changyi Li, Yufeng Zheng, Kelvin Wai Kwok Yeung, Zhenduo Cui, Yanqin Liang, Shengli Zhu, Wenbin Hu, Yajun Qi, Tianjin Zhang, Xianbao Wang, Shuilin Wu
Format: Article
Language:English
Published: Nature Publishing Group 2021-02-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-021-21435-6
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spelling doaj-f01e02540e46490a8476416f95e7e8f52021-02-23T09:11:51ZengNature Publishing GroupNature Communications2041-17232021-02-0112111010.1038/s41467-021-21435-6Interfacial engineering of Bi2S3/Ti3C2T x MXene based on work function for rapid photo-excited bacteria-killingJianfang Li0Zhaoyang Li1Xiangmei Liu2Changyi Li3Yufeng Zheng4Kelvin Wai Kwok Yeung5Zhenduo Cui6Yanqin Liang7Shengli Zhu8Wenbin Hu9Yajun Qi10Tianjin Zhang11Xianbao Wang12Shuilin Wu13School of Materials Science & Engineering, The Key Laboratory of Advanced Ceramics and Machining Technology by the Ministry of Education of China, Tianjin UniversitySchool of Materials Science & Engineering, The Key Laboratory of Advanced Ceramics and Machining Technology by the Ministry of Education of China, Tianjin UniversityHubei Key Laboratory of Polymer Materials, Ministry-of-Education Key Laboratory for the Green Preparation and Application of Functional Materials, School of Materials Science & Engineering, Hubei UniversityStomatological Hospital, Tianjin Medical UniversityCollege of Engineering, State Key Laboratory for Turbulence and Complex System, Department of Materials Science and Engineering, Peking UniversityDepartment of Orthopaedics & Traumatology, Li Ka Shing Faculty of Medicine, The University of Hong KongSchool of Materials Science & Engineering, The Key Laboratory of Advanced Ceramics and Machining Technology by the Ministry of Education of China, Tianjin UniversitySchool of Materials Science & Engineering, The Key Laboratory of Advanced Ceramics and Machining Technology by the Ministry of Education of China, Tianjin UniversitySchool of Materials Science & Engineering, The Key Laboratory of Advanced Ceramics and Machining Technology by the Ministry of Education of China, Tianjin UniversitySchool of Materials Science & Engineering, The Key Laboratory of Advanced Ceramics and Machining Technology by the Ministry of Education of China, Tianjin UniversityHubei Key Laboratory of Polymer Materials, Ministry-of-Education Key Laboratory for the Green Preparation and Application of Functional Materials, School of Materials Science & Engineering, Hubei UniversityHubei Key Laboratory of Polymer Materials, Ministry-of-Education Key Laboratory for the Green Preparation and Application of Functional Materials, School of Materials Science & Engineering, Hubei UniversityHubei Key Laboratory of Polymer Materials, Ministry-of-Education Key Laboratory for the Green Preparation and Application of Functional Materials, School of Materials Science & Engineering, Hubei UniversitySchool of Materials Science & Engineering, The Key Laboratory of Advanced Ceramics and Machining Technology by the Ministry of Education of China, Tianjin UniversityMXenes have emerged as potential antimicrobial materials. Here, the authors report on the creation of a Schottky junction to increase the charge separation between MXenes and semiconductor to increase photodynamic creation of reactive oxygen species under near infrared irradiation for antibacterial purposes.https://doi.org/10.1038/s41467-021-21435-6
collection DOAJ
language English
format Article
sources DOAJ
author Jianfang Li
Zhaoyang Li
Xiangmei Liu
Changyi Li
Yufeng Zheng
Kelvin Wai Kwok Yeung
Zhenduo Cui
Yanqin Liang
Shengli Zhu
Wenbin Hu
Yajun Qi
Tianjin Zhang
Xianbao Wang
Shuilin Wu
spellingShingle Jianfang Li
Zhaoyang Li
Xiangmei Liu
Changyi Li
Yufeng Zheng
Kelvin Wai Kwok Yeung
Zhenduo Cui
Yanqin Liang
Shengli Zhu
Wenbin Hu
Yajun Qi
Tianjin Zhang
Xianbao Wang
Shuilin Wu
Interfacial engineering of Bi2S3/Ti3C2T x MXene based on work function for rapid photo-excited bacteria-killing
Nature Communications
author_facet Jianfang Li
Zhaoyang Li
Xiangmei Liu
Changyi Li
Yufeng Zheng
Kelvin Wai Kwok Yeung
Zhenduo Cui
Yanqin Liang
Shengli Zhu
Wenbin Hu
Yajun Qi
Tianjin Zhang
Xianbao Wang
Shuilin Wu
author_sort Jianfang Li
title Interfacial engineering of Bi2S3/Ti3C2T x MXene based on work function for rapid photo-excited bacteria-killing
title_short Interfacial engineering of Bi2S3/Ti3C2T x MXene based on work function for rapid photo-excited bacteria-killing
title_full Interfacial engineering of Bi2S3/Ti3C2T x MXene based on work function for rapid photo-excited bacteria-killing
title_fullStr Interfacial engineering of Bi2S3/Ti3C2T x MXene based on work function for rapid photo-excited bacteria-killing
title_full_unstemmed Interfacial engineering of Bi2S3/Ti3C2T x MXene based on work function for rapid photo-excited bacteria-killing
title_sort interfacial engineering of bi2s3/ti3c2t x mxene based on work function for rapid photo-excited bacteria-killing
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2021-02-01
description MXenes have emerged as potential antimicrobial materials. Here, the authors report on the creation of a Schottky junction to increase the charge separation between MXenes and semiconductor to increase photodynamic creation of reactive oxygen species under near infrared irradiation for antibacterial purposes.
url https://doi.org/10.1038/s41467-021-21435-6
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