1 |
Ag/AgCl nanoparticles assembled on BiOCl/Bi12O17Cl2 nanosheets: Enhanced plasmonic visible light photocatalysis and in situ DRIFTS investigation Zhang WD, Dong XG, Liang Y, Sun YJ, Dong F Applied Surface Science, 455, 236, 2018 |
2 |
In situ growth of cube-like AgCl on montmorillonite as an efficient photocatalyst for dye (Acid Red 18) degradation Zhang CY, Yu YG, Wei H, Li KB Applied Surface Science, 456, 577, 2018 |
3 |
Plasmonic Ag@AgCl-intercalated K4Nb6O17 composite for enhanced photocatalytic degradation of Rhodamine B under visible light Cui WQ, Wang H, Liu L, Liang YH, McEvoy JG Applied Surface Science, 283, 820, 2013 |
4 |
Development of AgCl/poly(MMA-co-AM) hybrid pervaporation membranes containing AgCl nanoparticles through synthesis of ionic liquid microemulsions Wu LG, Shen JN, Du CH, Wang T, Teng Y, Van der Bruggen B Separation and Purification Technology, 114, 117, 2013 |
5 |
In situ formation of large-scale Ag/AgCl nanoparticles on layered titanate honeycomb by gas phase reaction for visible light degradation of phenol solution Tang YX, Subramaniam VP, Lau TH, Lai YK, Gong DG, Kanhere PD, Cheng YH, Chen Z, Dong ZL Applied Catalysis B: Environmental, 106(3-4), 577, 2011 |
6 |
In situ anion-exchange synthesis and photocatalytic activity of Ag8W4O16/AgCl-nanoparticle core-shell nanorods Wang XF, Li SF, Yu HG, Yu JG Journal of Molecular Catalysis A-Chemical, 334(1-2), 52, 2011 |
7 |
Electrospinning method for the preparation of silver chloride nanoparticles in PVP nanofiber Bai J, Li YX, Li MY, Wang SG, Zhang CQ, Yang QB Applied Surface Science, 254(15), 4520, 2008 |
8 |
Preparation of AgCl-polyacrylamide composite microspheres via combination of a polymer microgel template method and a reverse micelle technique Zhang Y, Fang Y, Xia HY, Xie YX, Wang RF, Li XJ Journal of Colloid and Interface Science, 300(1), 210, 2006 |