ZIF-67CoCu-LDHMethyl orangeInteraction mechanismAdsorption capacityWith industrialization, wastewater treatment technologies have drawn huge attention and among different approaches the adsorption process is very attractive because of its simple design and low operational cost. In this paper, CoCu-layered ...
以金属有机骨架ZIF-67为牺牲模板,通过Cu2+调控结构,制备了层状双氢氧化物CoCu-LDH.以CoCu-LDH修饰玻碳电极(GCE),构建多巴胺(DA)电化学传感器(CoCu-LDH/GCE).结果表明:CoCuLDH/GCE对DA具有出色的电催化活性.在DA浓度3~1000μmol/L和1000~5000μmol/L范围内,该传感器的氧化峰电流与DA浓度呈线性关系,灵敏度分...
Besides, the application potential of different types of composite functional membranes based on LDH in PMS activation system was compared. Both of the LDH-based composite membranes exhibited excellent activity in peroxymonosulfate (PMS) activation process. More importantly, the composite membrane could ...
In this paper, CoCu-layered double hydroxide (LDH) was prepared having huge surface area with a large pore diameter, which is significant for obtaining excellent adsorption properties for methyl orange (MO). After detailed adsorption kinetics analysis, the results followed pseudo second order (PSO)...
Controllable Synthesis of Cobalt-Containing Nanosheet Array-Like Ternary CuCoAl-LDH/rGO Hybrids to Boost the Catalytic Efficiency for 4-Nitrophenol Reduction 2022, ACS Applied Materials and Interfaces Ru Nanoparticles Immobilized on Chitosan as Effective Catalysts for Boosting NH<inf>3</inf>BH<inf>3<...
The chemical formula of LDH is [M2+(1-x) N3+(x) (OH)2]x+ [An−]x/n. yH2O, where M2+ is bivalent and N3+ is trivalent metal ions and An− represents interlayer anion [15]. LDHs have been studied as energy storage materials and adsorbents of many organic and inorganic wastes...