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机译:来自环氧化大豆油和ZnO纳米颗粒对纤维素基材的可持续和可生物降解的超疏水涂层,用于有效的油/水分离
School of Chemistry and Chemical Engineering Southwest University 2# Tiansheng Road Chongqing 400715 China;
School of Chemistry and Chemical Engineering Southwest University 2# Tiansheng Road Chongqing 400715 China;
School of Chemistry and Chemical Engineering Southwest University 2# Tiansheng Road Chongqing 400715 China;
Neutron Science Directorate Oak Ridge National Laboratory Bethel Valley Road Oak Ridge Tennessee 37830 United States;
School of Chemistry and Chemical Engineering Southwest University 2# Tiansheng Road Chongqing 400715 China;
Biodegradable; Cured epoxidized soybean oil; Oil/water separation; Superhydrophobicity;
机译:来自环氧化大豆油和ZnO纳米颗粒对纤维素基材的可持续和可生物降解的超疏水涂层,用于有效的油/水分离
机译:通过溶胶 - 凝胶策略进行高水凝胶策略的一种阶梯容易可持续纤维素膜,通过溶胶 - 凝胶策略进行高效的油/水分离
机译:具有强粘合性能的铝基基材上的超疏水涂层的生长,显示出有效的油/水分离
机译:热和物理性质;水性马币的表面形态,用于涂料的涂料的氧化环氧化豆油膜
机译:以环氧大豆油为反应性稀释剂降低短油醇酸涂料的VOC
机译:耐用的超疏水TiO2 NPs涂层纤维素海绵可高效分离油水
机译:甲硅烷基化剂对硅氧烷/聚二甲基硅氧烷纳米复合涂料对油水分离纤维素织物过滤器的超疏水和自清洁性能的影响