Issue 6, 2023

Micro-structured P–N junction surfaces: large-scale preparation, antifouling properties, and a synergistic antibacterial mechanism

Abstract

Constructing an antifouling surface cost-effectively is vitally important for many applications. Herein, a series of silicon substrates with micro-pyramid structures and p–n junctions were fabricated following a simple industrial processing flow, among which the p+n-Si substrate, fabricated through boron doping of a micro-pyramid structured n-type silicon wafer, exhibited the most pronounced antibacterial performance. Broad-spectrum bactericidal and bacteriostatic activity of p+n-Si under ambient light illumination was observed, with an inhibition ability of 73–100% compared to that of a bare glass against both airborne and contact-transmitted bacteria in the intensive care unit. The synergetic effect of mechanical rupture and electric injury was supposed to be responsible for the potent antibacterial activity. This work proposes a state-of-the-art concept that p–n junctions enhance the anti-infection ability of micro-structured surfaces and provide a promising strategy for fabricating practical antifouling surfaces with a large-size, a facile manufacturing procedure, and gentle working conditions, as well as broad-spectrum and physical antibacterial mechanisms.

Graphical abstract: Micro-structured P–N junction surfaces: large-scale preparation, antifouling properties, and a synergistic antibacterial mechanism

Supplementary files

Article information

Article type
Paper
Submitted
19 Oct 2022
Accepted
26 Dec 2022
First published
29 Dec 2022

J. Mater. Chem. B, 2023,11, 1312-1319

Micro-structured P–N junction surfaces: large-scale preparation, antifouling properties, and a synergistic antibacterial mechanism

M. Ni, W. Li, B. Yuan, S. Zou, W. Cheng, K. Yang, J. Su, B. Sun and X. Su, J. Mater. Chem. B, 2023, 11, 1312 DOI: 10.1039/D2TB02258C

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