Environmental Engineering Reference
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[99] McShane CM, Choi KS. Photocurrent enhancement of n-type Cu
2
O electrodes achieved by controlling dendritic branching growth.
J Am Chem Soc 2009;131 (7):2561.
[100] Luo YS, Yu BH, Tu YC, Liang Y, Zhang YG, Liu JP, Li JL, Jia ZJ. Self-assembly synthesis of cactuslike Cu
2
O 3d nanoarchitectures
via a low-temperature solution approach. Mater Res Bull 2008;43 (8-9):2166.
[101] Qu YL, Li XY, Chen GH, Zhang HJ, Chen YY. Synthesis of Cu
2
O nano-whiskers by a novel wet-chemical route. Mater Lett 2008;62
(6-7):886.
[102] Jimenez-Cadena G, Comini e, Ferroni M, Sberveglieri G. Synthesis of Cu
2
O bi-pyramids by reduction of Cu(OH)
2
in solution. Mater
Lett 2010;64 (3):469.
[103] Liu HR, Miao WF, Yang S, Zhang ZM, Chen JF. Controlled synthesis of different shapes of Cu
2
O via γ-irradiation. Cryst Growth des
2009;9 (4):1733.
[104] Wang dB, Mo MS, Yu dB, Xu LQ, Li FQ, Qian YT. Large-scale growth and shape evolution of Cu
2
O cubes. Cryst Growth des 2003;3
(5):717.
[105] Wang YQ, Liang WS, Satti A, Nikitin K. Fabrication and microstructure of Cu
2
O nanocubes. J Cryst Growth 2010;312 (9):1605.
[106] Yao KX, Yin XM, Wang TH, Zeng HC. Synthesis, self-assembly, disassembly, and reassembly of two types of Cu
2
O nanocrystals
unifaceted with {001} or {110} planes. J Am Chem Soc 2010;132 (17):6131.
[107] Zhang X, Xie Y, Xu F, Liu XH, Xu d. Shape-controlled synthesis of submicro-sized cuprous oxide octahedral. Inorg Chem Commun
2003;6 (11):1390.
[108] He P, Shen XH, Gao HC. Size-controlled preparation of Cu
2
O octahedron nanocrystals and studies on their optical absorption. J Colloid
Interface Sci 2005;284 (2):510.
[109] Guo SJ, Fang YX, dong SJ, Wang eK. Templateless, surfactantless, electrochemical route to a cuprous oxide microcrystal: from
octahedra to monodisperse colloid spheres. Inorg Chem 2007;46 (23):9537.
[110] Leng M, Liu MZ, Zhang YB, Wang ZQ, Yu C, Yang XG, Zhang HJ, Wang C. Polyhedral 50-facet Cu
2
O microcrystals partially enclosed
by {311} high-index planes: synthesis and enhanced catalytic CO oxidation activity. J Am Chem Soc 2010;132 (48):17084.
[111] Wang HH, Tian F, Li XP, Liu FL, Shen Q. Preparation and shape evolution of cuprous oxide in the solution phases of copper (II)
dodecyl sulfate. Powder Technol 2010;197 (3):298.
[112] Ng CHB, Fan WY. Shape evolution of Cu
2
O nanostructures via kinetic and hermodynamic controlled growth. J Phys Chem B 2006;110
(42):20801.
[113] Zhang WX, Luan CY, Yang ZH, Liu XT, Zhang dP, Yang SH. Preparation and optical properties of Cu
2
O hollow microsphere film and
hollow nanosphere powder via a simple liquid reduction approach. Appl Surf Sci 2007;253 (14):6063.
[114] Yu HG, Yu JG, Liu SW, Mann S. Template-free hydrothermal synthesis of CuO/Cu
2
O composite hollow microspheres. Chem Mater
2007;19 (17):4327.
[115] Xu YY, Chen dR, Jiao XL, Xue KY. Nanosized Cu
2
O/PeG400 composite hollow spheres with mesoporous shells. J Phys Chem C
2007;111 (44):16284.
[116] Xu HL, Wang WH, Zhou L. A growth model of single crystalline hollow spheres: oriented attachment of Cu
2
O nanoparticles to the
single crystalline shell wall. Cryst Growth des 2008;8 (10):3486.
[117] Xu YY, Jiao XL, Chen dR. PeG-assisted preparation of single-crystalline Cu
2
O hollow nanocubes. J Phys Chem C 2008;112
(43):16769.
[118] Kuo CH, Huang MH. Fabrication of truncated rhombic dodecahedral Cu
2
O nanocages and nanoframes by particle aggregation and
acidic etching. J Am Chem Soc 2008;130 (38):12815.
[119] Gou LF, Murphy CJ. Solution-phase synthesis of Cu
2
O nanocubes. Nano Lett 2003;3 (2):23.
[120] Kim MH, Lim B, Lee eP, Xia YN. Polyol synthesis of Cu
2
O nanoparticles: use of chloride to promote the formation of a cubic
morphology. J Mater Chem 2008;18 (34):4069.
[121] Sun Sd, Kong CC, Yang SC, Wang LQ, Song XP, ding BG, Yang ZM. Highly symmetric polyhedral Cu
2
O crystals with controllable-index
planes. CrystengComm 2011;3 (7):2217.
[122] Sun Sd, Zhang H, Song XP, Liang SH, Kong CC, Yang ZM. Polyhedron-aggregated multi-facet Cu
2
O homogeneous structures.
CrystengComm 2011;13 (20):6040.
[123] Wang X, Liu C, Zheng BJ, Jiang YQ, Zhang L, Xie ZX, Zheng LS. Controlled synthesis of concave Cu
2
O microcrystals enclosed by
{hhl} high-index facets and enhanced catalytic activity. J Mater Chem A 2013;1 (2):282.
[124] Wang XP, Jiao SH, Wu dP, Li Q, Zhou JG, Jiang K, Xu dS. A facile strategy for crystal engineering of Cu
2
O polyhedrons with
high-index facets. CrystengComm 2013;315 (10):1849.
[125] Su Xd, Zhao JZ, Bala H, Zhu YC, Gao Y, Ma SS, Wang ZC. Fast synthesis of stable cubic copper nanocages in the aqueous phase.
J Phys Chem C 2007;111 (40):14689.
[126] Xu H, Wang W, Zhu W. Shape evolution and size-controllable synthesis of Cu
2
O octahedra and their morphology-dependent
photocatalytic properties. J Phys Chem B 2006;110 (28):13829.
