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Items: 14

1.

The Effects of ZnTe:Cu Back Contact on the Performance of CdTe Nanocrystal Solar Cells with Inverted Structure.

Chen B, Liu J, Cai Z, Xu A, Liu X, Rong Z, Qin D, Xu W, Hou L, Liang Q.

Nanomaterials (Basel). 2019 Apr 17;9(4). pii: E626. doi: 10.3390/nano9040626.

2.

Efficient CdTe Nanocrystal/TiO₂ Hetero-Junction Solar Cells with Open Circuit Voltage Breaking 0.8 V by Incorporating A Thin Layer of CdS Nanocrystal.

Mei X, Wu B, Guo X, Liu X, Rong Z, Liu S, Chen Y, Qin D, Xu W, Hou L, Chen B.

Nanomaterials (Basel). 2018 Aug 13;8(8). pii: E614. doi: 10.3390/nano8080614.

3.

Roll-to-Roll Slot-Die-Printed Polymer Solar Cells by Self-Assembly.

Yang J, Lin Y, Zheng W, Liu A, Cai W, Yu X, Zhang F, Liang Q, Wu H, Qin D, Hou L.

ACS Appl Mater Interfaces. 2018 Jul 5;10(26):22485-22494. doi: 10.1021/acsami.8b05673. Epub 2018 Jun 25.

PMID:
29893117
4.

Rationally Controlled Synthesis of CdSexTe1-x Alloy Nanocrystals and Their Application in Efficient Graded Bandgap Solar Cells.

Wen S, Li M, Yang J, Mei X, Wu B, Liu X, Heng J, Qin D, Hou L, Xu W, Wang D.

Nanomaterials (Basel). 2017 Nov 8;7(11). pii: E380. doi: 10.3390/nano7110380.

5.

Solvent Engineering for High-Performance PbS Quantum Dots Solar Cells.

Wu R, Yang Y, Li M, Qin D, Zhang Y, Hou L.

Nanomaterials (Basel). 2017 Jul 28;7(8). pii: E201. doi: 10.3390/nano7080201.

6.

CdTe Nanocrystal Hetero-Junction Solar Cells with High Open Circuit Voltage Based on Sb-doped TiO₂ Electron Acceptor Materials.

Li M, Liu X, Wen S, Liu S, Heng J, Qin D, Hou L, Wu H, Xu W, Huang W.

Nanomaterials (Basel). 2017 May 3;7(5). pii: E101. doi: 10.3390/nano7050101.

7.

Erratum to: Novel Hybrid Ligands for Passivating PbS Colloidal Quantum Dots to Enhance the Performance of Solar Cells.

Yang Y, Zhao B, Gao Y, Liu H, Tian Y, Qin D, Wu H, Huang W, Hou L.

Nanomicro Lett. 2016;8(Suppl 1):1. doi: 10.1007/s40820-015-0078-9. Epub 2016 Jan 16.

8.

Novel Hybrid Ligands for Passivating PbS Colloidal Quantum Dots to Enhance the Performance of Solar Cells.

Yang Y, Zhao B, Gao Y, Liu H, Tian Y, Qin D, Wu H, Huang W, Hou L.

Nanomicro Lett. 2015;7(4):325-331. doi: 10.1007/s40820-015-0046-4. Epub 2015 Jun 20. Erratum in: Nanomicro Lett. 2016;8(Suppl 1):1.

9.

Enhancement of open-circuit voltage and the fill factor in CdTe nanocrystal solar cells by using interface materials.

Zhu J, Yang Y, Gao Y, Qin D, Wu H, Hou L, Huang W.

Nanotechnology. 2014 Sep 12;25(36):365203.

PMID:
25140734
10.

A surfactant-free recipe for shape-controlled synthesis of CdSe nanocrystals.

Liu H, Tao H, Yang T, Kong L, Qin D, Chen J.

Nanotechnology. 2011 Jan 28;22(4):045604. doi: 10.1088/0957-4484/22/4/045604. Epub 2010 Dec 20.

PMID:
21169661
11.

High mobility field effect transistor from solution-processed needle-like tellurium nanowires.

Tao H, Liu H, Qin D, Chan K, Chen J, Cao Y.

J Nanosci Nanotechnol. 2010 Dec;10(12):7997-8003.

PMID:
21121289
12.

Solution Grown Se/Te Nanowires: Nucleation, Evolution, and The Role of Triganol Te seeds.

Tao H, Shan X, Yu D, Liu H, Qin D, Cao Y.

Nanoscale Res Lett. 2009 May 19;4(9):963-970.

13.

Field effect transistor from individual trigonal Se nanowire.

Qin D, Tao H, Zhao Y, Lan L, Chan K, Cao Y.

Nanotechnology. 2008 Sep 3;19(35):355201. doi: 10.1088/0957-4484/19/35/355201. Epub 2008 Jul 17.

PMID:
21828834
14.

Synthesis of high quality zinc-blende CdSe nanocrystals and their application in hybrid solar cells.

Han L, Qin D, Jiang X, Liu Y, Wang L, Chen J, Cao Y.

Nanotechnology. 2006 Sep 28;17(18):4736-42. doi: 10.1088/0957-4484/17/18/035. Epub 2006 Sep 1.

PMID:
21727606

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