Adv Mater 2010, 22:2570–2574.CrossRef 5. Wang P, Huang BB, Qin XY, Zhang XY, Dai Y, Wei JY, Whangbo MH: Ag@AgCl: a learn more highly efficient and stable photocatalyst active under visible light. Angew Chem Int Ed 2008, 47:7931–7933.CrossRef 6.
Kim www.selleckchem.com/products/Everolimus(RAD001).html S, Chung H, Kwon JH, Yoon HG, Kim W: Facile synthesis of silver chloride nanocubes and their derivatives. Bull Korean Chem Soc 2010, 31:2918–2922.CrossRef 7. Han L, Wang P, Zhu CZ, Zhai YM, Dong SJ: Facile solvothermal synthesis of cube-like Ag@AgCl: a highly efficient visible light photocatalyst. Nanoscale 2011, 3:2931–2935.CrossRef 8. Lou ZZ, Huang BB, Wang P, Wang ZY, Qin XY, Zhang XY, Cheng HF, Zheng ZK, Dai Y: The synthesis of the near-spherical AgCl crystal for visible light photocatalytic applications. Dalton Trans 2011,
40:4104–4110.CrossRef 9. Ma YR, Qi LM, Quisinostat Ma JM, Cheng HM: Hierarchical, star-shaped PbS crystals formed by a simple solution route. Cryst Growth Des 2004, 4:351–354.CrossRef 10. Fang JX, Hahn H, Krupke R, Schramm F, Scherer T, Ding BJ, Song XP: Silver nanowires growth via branch fragmentation of electrochemically grown silver dendrites. Chem Commun 2009, 1130–1132. 11. Zhang Q, Liu SJ, Yu SHJ: Recent advances in oriented attachment growth and synthesis of functional materials: concept, evidence, mechanism, and future. Mater Chem 2009, 19:191–207.CrossRef 12. Kuai L, Geng BY, Chen XT, Zhao YY, Luo YC: Facile subsequently light-induced route to highly efficient and stable sunlight-driven Ag-AgBr plasmonic photocatalyst. Langmuir 2010, 26:18723–18727.CrossRef 13. Selloni A: Anatase shows its reactive side. Nat Mater 2008, 7:613–615.CrossRef 14. Vittadini A, Selloni A, Rotzinger FP, Gratzel M: Structure and energetics of water adsorbed at TiO2 anatase s101d and s001d surfaces. Phys Rev Lett 1998, 81:2954–2957.CrossRef 15. Zheng ZK, Huang BB, Wang ZY, Guo M, Qin XY,
Zhang XY, Wang P, Dai YJ: Highly efficient photocatalyst: tiO2 microspheres produced Farnesyltransferase from TiO2 nanosheets with a high percentage of reactive 001 facets. Phys Chem C 2009, 113:14448–14453.CrossRef 16. Tilocca A, Selloni AJ: Methanol adsorption and reactivity on clean and hydroxylated anatase (101) surfaces. Phys Chem B 2004, 108:19314–19319.CrossRef 17. Yang HG, Sun CH, Qiao SZ, Zou J, Liu G, Smith SC, Cheng HM, Lu GQ: Anatase TiO2 single crystals with a large percentage of reactive facets. Nature 2008, 453:638–642.CrossRef Competing interests The authors declare that they have no competing interests. Authors’ contributions ML carried out the mechanism analysis and drafted the manuscript. HY investigated the preparation and characterization of the novel structures, and drafted the manuscript. RH carried out parts of the materials preparations. FB, MT, DS, BJ, and YL participated in the sequence analysis and discussion of the work. All authors read and approved the final manuscript.