单体
纳米制造
材料科学
化学气相沉积
化学工程
沉积(地质)
聚合物
光催化
纳米技术
有机化学
化学
催化作用
复合材料
古生物学
沉积物
工程类
生物
作者
Yuanhao Shen,Xinlei He,Wenjun Meng,Xiaocheng Huang,Pengzhe Cai,Zheng Yang,Weiwei Du,Xinyi Zhang,Yingwu Luo,Junjie Zhao
出处
期刊:Small
[Wiley]
日期:2025-04-17
卷期号:21 (23): e2502586-e2502586
被引量:2
标识
DOI:10.1002/smll.202502586
摘要
Hazardous waste generation in nanomanufacturing is raising serious environmental concerns and increasing the demand for energy and resources for emission control. Although the vapor-phase deposition of nanoscale coatings possesses a solvent-free advantage, recycling precursors from the complex composition in the exhaust is still formidable. Here, a visible-light-driven chemical vapor deposition method is proposed, which allows initiator-free polymer deposition with facile monomer recovery. The photocatalytic radical generation is confined at the monomer/semiconductor interface, maintaining unreacted monomers intact under 420 nm irradiation. Multilayer monomer adsorption conditions are also employed to inhibit the desorption of radical species. Thereby, high-purity monomer can be recycled from the exhaust by condensation with an outstanding recovery rate of 96.28%. Furthermore, this deposition method is demonstrated for synthesizing effective anticorrosion coatings and fabricating self-aligned patterns with an area selectivity of 97.4%. This work provides insights for guiding the design of eco-friendly deposition methods and paves the way to sustainable nanomanufacturing.
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