纳米技术
沉积(地质)
碳纤维
生化工程
风险分析(工程)
控制(管理)
透视图(图形)
计算机科学
工程伦理学
领域(数学)
管理科学
环境科学
基质(水族馆)
工程类
建筑工程
空隙(复合材料)
工艺工程
材料科学
空虚
作者
Weiteng Li,Guang Liu,Yue Fu,Ping Li,Chuancheng Yang,Junzhi Chen,Huajun Yan,Yongdi Zhang,Guang Yang
出处
期刊:Langmuir
[American Chemical Society]
日期:2026-02-12
卷期号:42 (9): 6575-6602
标识
DOI:10.1021/acs.langmuir.5c05593
摘要
Carbon deposits remain difficult to remediate because conventional removal methods suffer from intrinsic limitations-including low efficiency, high energy consumption, and substrate damage-which hinder their practical application. Critically, the research paradigm has predominantly focused on "postformation removal" while largely neglecting the more fundamental strategy of "source prevention". Furthermore, a systematic review that applies cutting-edge interdisciplinary concepts, such as bionics, to the comprehensive prevention and control of engine carbon deposition remains a notable gap in the literature. This paper aims to fill this void by introducing, a novel research framework centered on "source prevention". This framework transcends conventional removal techniques by systematically focusing on two cutting-edge strategies: bionic antiadhesion textures and functional antideposition coatings. This review not only systematically examines the formation mechanisms of carbon deposits and the limitations of current removal technologies but, more importantly, pioneers a paradigm shift from "passive removal" to "active defense". We are confident that this interdisciplinary perspective will provide theoretical guidance for the intelligent, efficient, and durable design of engines, propelling the field toward more forward-looking directions.
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