机译:工程MIL-100(FE)在3D多孔天然硅藻中作为一个通用的高性能平台,用于受控异烟药物释放,Fenton对孔雀石绿色染料的催化,用于Pb〜(2+)去除和染料的染色染料降解和环境吸附剂
Jain Univ Ctr Nano & Mat Sci Jain Global Campus Bengaluru 562112 Karnataka India;
Jain Univ Ctr Nano & Mat Sci Jain Global Campus Bengaluru 562112 Karnataka India;
Jain Univ Ctr Nano & Mat Sci Jain Global Campus Bengaluru 562112 Karnataka India;
Guru Jambheshwar Univ Sci & Technol Dept Bio & Nano Technol Hisar 125001 Haryana India;
Chonnam Natl Univ Dept Environm & Energy Engn 77 Yongbong Ro Gwangju 61186 South Korea;
Prairie View A&M Univ Dept Chem Prairie View TX 77446 USA;
Univ Adelaide Sch Chem Engn Adelaide SA 5005 Australia|Univ Adelaide ARC Res Hub Graphene Enabled Ind Transformat Adelaide SA 5005 Australia;
Jain Univ Ctr Nano & Mat Sci Jain Global Campus Bengaluru 562112 Karnataka India;
Natural diatoms; Metal-organic frameworks; Hybrid materials; Drug delivery; Environmental applications;
机译:用有机酸改性的天然吸附剂去除废水中的孔雀石绿染料:动力学,平衡,机理,实际应用和染料负载吸附剂的处理
机译:Bio启发的聚德莫胺涂层硅藻作为受控药物释放的药物和染料降解的活性催化剂
机译:环境稳定的四面体二氧化硅和非四面体氧化铝吸附剂,用于从水溶液中去除和回收孔雀石绿染料
机译:磁性多孔控制的Fe3O4-壳聚糖纳米结构:一种高效去除偶氮染料的环保吸附剂
机译:用铁电极通过芬顿工艺进行水溶液中孔雀石绿色染料的降解和矿化