1 |
Aqueous synthesis and characterization of hydrophilic Cu2ZnSnS4 nanocrystals
|
期刊论文 |
Zhou Z.J.|Zhou Z.J.|Wu S.X.|Wu S.X.| |
2 |
Enhanced Performance of Dye-Sensitized Solar Cells Using Solution-Based In Situ Synthesis and Fabrication of Cu2ZnSnSe4 Nanocrystal Counter Electrode
|
期刊论文 |
Yang Zhao|Yang Zhao|Si-Xin Wu|Si-Xin Wu| |
3 |
High temperature recrystallization of kersterite Cu2ZnSnS4 towards enhanced photocatalytic H-2 evolution
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期刊论文 |
Zhou Z.J.|Zhou Z.J.|Wu S.X.|Wu S.X.| |
4 |
Solution-Processed Cu2ZnSn(S,Se)4Thin-Film Solar Cells Using Elemental Cu, Zn, Sn, S, and Se Powders as Source
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期刊论文 |
Zhou, Zhengji|Zhou, Wenhui|Kou, Dongxing|Wu, Sixin| |
5 |
Wurtzite copper-zinc-tin sulfide as a superior counter electrode material for dye-sensitized solar cells
|
期刊论文 |
Zhao, Yang|Zhao, Yang|Wu, Si-Xin|Wu, Si-Xin| |
6 |
Magnetron Sputtering Route to Efficiency-Enhanced Cu2ZnSnS4 Thin Films as the Counter Electrode of Dye-Sensitized Solar Cells
|
期刊论文 |
Wu, Sixin|Wu, Sixin|Xue, Dongfeng|Xue, Dongfeng| |
7 |
Effect of Crystallization of Cu2ZnSnSxSe4-x Counter Electrode on the Performance for Efficient Dye-Sensitized Solar Cells
|
期刊论文 |
Chang, Zhixian|Zhou, Wenhui|Zhou, Zhengji|Wu, Sixin| |
8 |
High temperature recrystallization of kersterite Cu2ZnSnS4 towards enhanced photocatalytic H-2 evolution
|
期刊论文 |
Zhou Z.J.|Zhou Z.J.|Wu S.X.|Wu S.X.| |
9 |
Phase-dependent photocatalytic H2 evolution of copper zinc tin sulfide under visible light.
|
期刊论文 |
Zhou, Zheng-Ji|Zhou, Zheng-Ji|Wu, Si-Xin|Wu, Si-Xin| |
10 |
Synthesis of Pure Metastable Wurtzite CZTS Nanocrystals by Facile One-Pot Method
|
期刊论文 |
Du Z.L.|Du Z.L.|Wu S.X.|Wu S.X.| |
11 |
Synthesis of Metastable Wurtzite CuInS2 Nanocrystals and Films from Aqueous Solution
|
期刊论文 |
Zhou Z.J.|Zhou Z.J.|Wu S.X.|Wu S.X.| |
12 |
Wurtzite Cu2ZnSnS4 nanospindles with enhanced optical and electrical properties
|
期刊论文 |
Zhou Z.J.|Zhou Z.J.|Wu S.X.|Wu S.X.| |
13 |
Wurtzite Cu2ZnSnS4 nanospindles with enhanced optical and electrical properties
|
期刊论文 |
Zheng-Ji Zhou|Zheng-Ji Zhou|Si-Xin Wu|Si-Xin Wu| |
14 |
Solvent-free Synthesis of Hexagonal Iron Sulfide Nanoflowers
|
期刊论文 |
Zhou Z.J.|Zhou Z.J.|Wu S.X.|Wu S.X.| |
15 |
Solvent-free Synthesis of Hexagonal Iron Sulfide Nanoflowers
|
期刊论文 |
Zhou, Zhengji|Zhou, Zhengji|Wu, Sixin|Wu, Sixin| |
16 |
Wurtzite Cu2ZnSnS4 nanospindles with enhanced optical and electrical properties
|
期刊论文 |
Zheng-Ji Zhou|Zheng-Ji Zhou|Si-Xin Wu|Si-Xin Wu| |
17 |
Phase-dependent photocatalytic H-2 evolution of copper zinc tin sulfide under visible light
|
期刊论文 |
Zhou Z.J.|Zhou Z.J.|Wu S.X.|Wu S.X.| |
18 |
CdS and PbS quantum dots co-sensitized TiO2 nanorod arrays with improved performance for solar cells application
|
期刊论文 |
Zhou, Wen-Hui|Zhou, Wen-Hui|Wu, Si-Xin|Wu, Si-Xin| |
19 |
Effect of Crystallization of Cu2ZnSnSxSe4-x Counter Electrode on the Performance for Efficient Dye-Sensitized Solar Cells.
|
期刊论文 |
Zhou, Zhengji|Zhou, Zhengji|Wu, Sixin|Wu, Sixin| |
20 |
Enhanced Efficiency of Dye-Sensitized Solar Cells Using Cu2ZnSnSe4 Nanocrystal Counter Electrode Prepared by In Situ Synthesis and Film Deposition
|
期刊论文 |
Wu, Si-Xin|Wu, Si-Xin|Xue, Dongfeng|Xue, Dongfeng| |
21 |
Efficiency enhancement of dye-sensitized solar cells (DSSCs) using ligand exchanged CuInS2 NCs as counter electrode materials
|
期刊论文 |
Zhou Z.J.|Zhou Z.J.|Wu S.X.|Wu S.X.| |
22 |
High-efficient dye-sensitized solar cells with all-inorganic Cu2ZnSnSe4 counter-electrode by ligand exchange
|
期刊论文 |
Guo J.|Guo J.|Wu S.X.|Wu S.X.| |
23 |
Cu2ZnSnSe4 nanocrystals capped with S(2-) by ligand exchange: utilizing energy level alignment for efficiently reducing carrier rec ombination.
|
期刊论文 |
Wu, Si-Xin|Wu, Si-Xin|Cao, Xuan|Cao, Xuan| |
24 |
Deposition of CIGS films by hydrazine-free solution method
|
期刊论文 |
Zhou Z.J.|Zhou Z.J.|Wu S.X.|Wu S.X.| |
25 |
CdS and PbS quantum dots co-sensitized TiO2 nanorod arrays with improved performance for solar cells application
|
期刊论文 |
Zhou, Wen-Hui|Zhou, Wen-Hui|Wu, Si-Xin|Wu, Si-Xin| |
26 |
Shape-controlled synthesis of iron sulfide nanostructures by thermal decomposition of organometallic precursors
|
期刊论文 |
An Y.Q.|An Y.Q.|Wu S.X.|Wu S.X.| |
27 |
CuInS2 as Photocatalyst for H2 Evolution: Polyvinylpyrrolidone-Assisted Solvothermal Route to Tuned Microstructures Toward High Performance Photocatalysts
|
期刊论文 |
Si-Xin Wu|Si-Xin Wu|Dongfeng Xue|Dongfeng Xue| |
28 |
Synthesis of Metastable Wurtzite CuInS2 Nanocrystals and Films from Aqueous Solution
|
期刊论文 |
Zhou Z.J.|Zhou Z.J.|Wu S.X.|Wu S.X.| |
29 |
High-efficient dye-sensitized solar cells with all-inorganic Cu2ZnSnSe4 counter-electrode by ligand exchange
|
期刊论文 |
Guo J.|Guo J.|Wu S.X.|Wu S.X.| |
30 |
Post-Treatment on the Performance of Copper Zinc Tin Sulfide Selenium Counter Electrode for Dye-Sensitized Solar Cells
|
期刊论文 |
Kou, Dong-Xing|Zhou, Zheng-Ji|Xue, Dong-Feng|Wu, Si-Xin| |
31 |
Surfactant-Free CuInS2 Nanocrystals: An Alternative Counter-Electrode Material for Dye-Sensitized Solar Cells
|
期刊论文 |
Zhou, Wen-Hui|Zhou, Wen-Hui|Wu, Si-Xin|Wu, Si-Xin| |
32 |
Phase-dependent photocatalytic H-2 evolution of copper zinc tin sulfide under visible light
|
期刊论文 |
Zhou Z.J.|Zhou Z.J.|Wu S.X.|Wu S.X.| |
33 |
Enhanced Performance of Dye-Sensitized Solar Cells Using Solution-Based In Situ Synthesis and Fabrication of Cu2ZnSnSe4 Nanocrystal Counter Electrode
|
期刊论文 |
Yang Zhao|Yang Zhao|Si-Xin Wu|Si-Xin Wu| |
34 |
Synthesis of Pure Metastable Wurtzite CZTS Nanocrystals by Facile One-Pot Method
|
期刊论文 |
Du Z.L.|Du Z.L.|Wu S.X.|Wu S.X.| |
35 |
Cu2ZnSnSe4 nanocrystals capped with S(2-) by ligand exchange: utilizing energy level alignment for efficiently reducing carrier rec ombination.
|
期刊论文 |
Wu, Si-Xin|Wu, Si-Xin|Cao, Xuan|Cao, Xuan| |
36 |
Effect of Crystallization of Cu2ZnSnSxSe4-x Counter Electrode on the Performance for Efficient Dye-Sensitized Solar Cells.
|
期刊论文 |
Zhou, Zhengji|Zhou, Zhengji|Wu, Sixin|Wu, Sixin| |
37 |
Application of quaternary Cu2ZnSnS4 quantum dot-sensitized solar cells based on the hydrolysis approach
|
期刊论文 |
Kou, Dongxing|Zhou, Wenhui|Zhou, Zhengji|Wu, Sixin| |
38 |
Phase-dependent photocatalytic H2 evolution of copper zinc tin sulfide under visible light.
|
期刊论文 |
Zhou, Zheng-Ji|Zhou, Zheng-Ji|Wu, Si-Xin|Wu, Si-Xin| |
39 |
Wurtzite Cu2ZnSnS4 nanospindles with enhanced optical and electrical properties
|
期刊论文 |
Zhou Z.J.|Zhou Z.J.|Wu S.X.|Wu S.X.| |
40 |
Deposition of CIGS films by hydrazine-free solution method
|
期刊论文 |
Zhou Z.J.|Zhou Z.J.|Wu S.X.|Wu S.X.| |
41 |
Deposition of CIGS films by hydrazine-free solution method
|
期刊论文 |
Zhou, Zheng-Ji|Zhou, Zheng-Ji|Wu, Si-Xin|Wu, Si-Xin| |
42 |
Wurtzite copper-zinc-tin sulfide as a superior counter electrode material for dye-sensitized solar cells
|
期刊论文 |
Zhao, Yang|Zhao, Yang|Wu, Si-Xin|Wu, Si-Xin| |
43 |
CuInS2 as Photocatalyst for H2 Evolution: Polyvinylpyrrolidone-Assisted Solvothermal Route to Tuned Microstructures Toward High Performance Photocatalysts
|
期刊论文 |
Si-Xin Wu|Si-Xin Wu|Dongfeng Xue|Dongfeng Xue| |
44 |
High Performance Dye-Sensitized Solar Cell Using CuInGaSe2 as Counter Electrode Prepared by Sputtering
|
期刊论文 |
Zhou, Wen-Hui|Zhou, Wen-Hui|Wu, Si-Xin|Wu, Si-Xin| |
45 |
Enhanced Efficiency of Dye-Sensitized Solar Cells Using Cu2ZnSnSe4 Nanocrystal Counter Electrode Prepared by In Situ Synthesis and Film Deposition
|
期刊论文 |
Wu, Si-Xin|Wu, Si-Xin|Xue, Dongfeng|Xue, Dongfeng| |
46 |
High Performance Dye-Sensitized Solar Cell Using CuInGaSe2 as Counter Electrode Prepared by Sputtering
|
期刊论文 |
Zhou, Wen-Hui|Zhou, Wen-Hui|Wu, Si-Xin|Wu, Si-Xin| |
47 |
Deposition of CIGS films by hydrazine-free solution method
|
期刊论文 |
Zhou, Zheng-Ji|Zhou, Zheng-Ji|Wu, Si-Xin|Wu, Si-Xin| |
48 |
Solvent-free Synthesis of Hexagonal Iron Sulfide Nanoflowers
|
期刊论文 |
Zhou Z.J.|Zhou Z.J.|Wu S.X.|Wu S.X.| |
49 |
Aqueous synthesis and characterization of hydrophilic Cu2ZnSnS4 nanocrystals
|
期刊论文 |
Zhou Z.J.|Zhou Z.J.|Wu S.X.|Wu S.X.| |
50 |
Magnetron Sputtering Route to Efficiency-Enhanced Cu2ZnSnS4 Thin Films as the Counter Electrode of Dye-Sensitized Solar Cells
|
期刊论文 |
Wu, Sixin|Wu, Sixin|Xue, Dongfeng|Xue, Dongfeng| |
51 |
Shape-controlled synthesis of iron sulfide nanostructures by thermal decomposition of organometallic precursors
|
期刊论文 |
An Y.Q.|An Y.Q.|Wu S.X.|Wu S.X.| |
52 |
Efficiency enhancement of dye-sensitized solar cells (DSSCs) using ligand exchanged CuInS2 NCs as counter electrode materials
|
期刊论文 |
Zhou Z.J.|Zhou Z.J.|Wu S.X.|Wu S.X.| |
53 |
Surfactant-Free CuInS2 Nanocrystals: An Alternative Counter-Electrode Material for Dye-Sensitized Solar Cells
|
期刊论文 |
Zhou, Wen-Hui|Zhou, Wen-Hui|Wu, Si-Xin|Wu, Si-Xin| |
54 |
The effect of the selenization process on grain size and performance of CuIn(Sx,Se1-x)2 counter electrodes
|
期刊论文 |
Zhou, Zheng-Ji|Kou, Dong-Xing|Zhou, Wen-Hui|Wu, Si-Xin| |
55 |
Solution-deposited pure selenide CIGSe solar cells from elemental Cu, In, Ga, and Se
|
期刊论文 |
Kou, Dongxing|Zhou, Wenhui|Pan, Daocheng|Wu, Sixin| |
56 |
Solvent-free Synthesis of Hexagonal Iron Sulfide Nanoflowers
|
期刊论文 |
Zhou, Zhengji|Zhou, Zhengji|Wu, Sixin|Wu, Sixin| |
57 |
Cu2ZnSnSe4 nanocrystals capped with S2- by ligand exchange: Utilizing energy level alignment for efficiently reducing carrier rec ombination
|
期刊论文 |
Zhou, Wen-Hui|Zhou, Zheng-Ji|Wu, Si-Xin|Cao, Xuan| |