材料科学
二氧化钛
三聚氰胺
海绵
磨损(机械)
耐久性
纳米颗粒
化学工程
吸收(声学)
复合材料
表面粗糙度
扫描电子显微镜
纳米技术
植物
生物
工程类
作者
Taochuan Zhang,Lei Han,Guanda Yang,Dirk W. Schubert,Chunmei Duan
摘要
ABSTRACT This study explored the development and characterizations of a lightweight, cost‐effective, and easily accessible titanium dioxide (TiO 2 )/melamine sponge with outstanding hydrophobicity, oil absorption/separation, flame retardancy, durability, and electromagnetic wave absorption capacities. Commercial melamine sponges were modified using the silane coupling agent and TiO 2 nanoparticles via a solution‐immersion method. Scanning Electron Microscopy revealed the structural integrity and surface morphology with increased surface roughness and uniform distribution of TiO 2 particles. The hydrophobicity of the TiO 2 /sponge was confirmed by contact angle measurements, showing a high value of 145°. The oil absorption capacity and separation efficiency were also quantified, with the modified sponges able to absorb oils at 70 to 120 times their weight while maintaining a separation efficiency above 95% even after 10 reuse cycles. Additionally, the TiO 2 /sponge exhibited excellent flame resistance, strong mechanical abrasion resistance, and stability in saline environments. Electromagnetic absorption tests over the 2–18 GHz range showed efficient absorption, with reflection loss values below −10 dB at higher frequencies for thicker sponges. These results suggest that TiO 2 /sponge composites provide multifaceted enhancements, making them suitable for various environmental and industrial applications, including oil spill management and electromagnetic radiation mitigation.
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