Self-assembled PPy@COF micro/nanostructure on flexible cotton fabric enables all-weather cleanup of high-viscosity crude oil via synergistic photothermal, electrothermal, and superhydrophobic effects

聚二甲基硅氧烷 材料科学 光热治疗 化学工程 吸附 纳米技术 复合数 电导率 原油 耐久性 微流控 环境修复 疏水 复合材料 光热效应 聚吡咯 胶粘剂 提高采收率 堆积 藻类生质燃料 微型加热器 纳米颗粒
作者
Yingying Wang,Suqiu Si,Taipeng Jiang,Sheng Chen,Jingjing He,Jianyong Tang,Jian Wu,Weijie Wei,Lingling Zeng,Jin Li,Zhuwei Gao
出处
期刊:Nano materials science [Elsevier BV]
被引量:4
标识
DOI:10.1016/j.nanoms.2025.12.004
摘要

Frequent oil spills pose severe environmental and ecological threats, necessitating the development of materials capable of effective all-weather remediation of high-viscosity crude oil. In this study, a self-assembly strategy was employed to integrate covalent organic framework (COF) and polypyrrole (PPy) on a flexible cotton fabric (CF). Subsequent hydrophobic modification with polydimethylsiloxane (PDMS) produced a multifunctional composite membrane (PDMS@PPy@COF@CF) that integrated photothermal conversion, electrothermal response, and superhydrophobicity. The membrane exhibited excellent superhydrophobicity (WCA = 153.5°), superior oil-water separation efficiency (≥98.5%), and a high separation flux (≥24 010.4 L m – 2 h –1 ). Notably, the construction of micro/nanostructures via π-π stacking and hydrogen bonding between PPy and COF layers endowed the material with outstanding photothermal and electrothermal conversion performances. Specifically, the surface temperature rapidly increased to 73.8 °C within 180 s under 1.0 kW m – 2 irradiation and attained 145.9 °C at 10 V. Synergistic utilization of photothermal (0.5 kW m – 2 ) and electrothermal (4 V) effects enabled rapid crude oil adsorption within merely 45 s. Furthermore, the composite membrane maintained stable conductivity and superhydrophobicity under mechanical strain, ensuring its reliability and durability for practical applications. In summary, the multifunctional PDMS@PPy@COF@CF membrane enables energy-efficient all-weather cleanup of high-viscosity crude oil spills with practical oil recovery potential. • PPy and COF constructed micro/nanostructures based on a self-assembly strategy to achieve dual-driving energy conversion. • PDMS@PPy@COF@CF has excellent superhydrophobicity and stability for oil-water separation. • PDMS@PPy@COF@CF achieved all-weather recovery of crude oil by integrating photothermal/electrothermal conversion. • PDMS@PPy@COF@CF maintained stable electrical conductivity and hydrophobicity under different strains.
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