石墨烯
制作
材料科学
纳米技术
激光器
智能材料
光学
物理
医学
替代医学
病理
作者
Man Ping Wang,Han Ku Nam,Dongwook Yang,Young‐Geun Lee,Yang Lu,Seung‐Woo Kim,Liandong Yu,Young‐Jin Kim
出处
期刊:Carbon
[Elsevier]
日期:2024-06-01
卷期号:: 119373-119373
标识
DOI:10.1016/j.carbon.2024.119373
摘要
Global warming, contributing to the worsening climate crisis, has led to more frequent heavy snowfall and rainfall. This causes corrosion, mold, and structural damage to roofs, which shortens the roofs' lifespan and potentially creates safety hazards. Addressing these challenges, we propose an approach to develop a multifunctional roof crucial for proactive adaptation to extreme weather. In this article, we present hydrophobic laser-induced graphene (LIG) onto wood in a single-step process using femtosecond-laser-direct-writing (FsLDW) technology in ambient air without additional chemical treatment. This hydrophobic LIG, showcasing a high electrical conductivity of 10.0 Ω·sq⁻1 and a high contact angle of 148.8°, seamlessly integrates onto roofs, creating cost-effective, fast, eco-friendly, and smart roofing solutions. The hydrophobic surface of these LIG electrodes incorporates a heating function of LIG showcasing their versatility in providing waterproofing, drying wood, and facilitating de-icing functions. This eco-friendly invention, reliant solely on laser patterning on wood, not only extends roof lifespan but also relieves concerns about electronic waste and recycling, promising the integration of green, smart, and sustainable roofing solutions.
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