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Literature DB >> 22280479

Mn-doped quantum dot sensitized solar cells: a strategy to boost efficiency over 5%.

Abstract

To make Quantum Dot Sensitized Solar Cells (QDSC) competitive, it is necessary to achieve power conversion efficiencies comparable to other emerging solar cell technologies. By employing Mn(2+) doping of CdS, we have now succeeded in significantly improving QDSC performance. QDSC constructed with Mn-doped-CdS/CdSe deposited on mesoscopic TiO(2) film as photoanode, Cu(2)S/Graphene Oxide composite electrode, and sulfide/polysulfide electrolyte deliver power conversion efficiency of 5.4%.

Entities: Chemical Gene

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Year: 2012 PMID： 22280479 DOI： 10.1021/ja211224s

Source DB: PubMed Journal: J Am Chem Soc ISSN： 0002-7863 Impact factor: 15.419

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Cited

32 in total

1. Charge-extraction strategies for colloidal quantum dot photovoltaics.

Authors: Xinzheng Lan; Silvia Masala; Edward H Sargent
Journal: Nat Mater Date: 2014-03 Impact factor: 43.841

2. Mn Doped AIZS/ZnS Nanocrystals: Synthesis and Optical Properties.

Authors: Siqi Chen; Masoumeh Saber Zaeimian; Jorge H S K Monteiro; Jialong Zhao; Athanasios G Mamalis; Ana de Bettencourt-Dias; Xiaoshan Zhu
Journal: J Alloys Compd Date: 2017-07-28 Impact factor: 5.316

3. A structure of CdS/Cu_xS quantum dots sensitized solar cells.

Authors: Ting Shen; Lu Bian; Bo Li; Kaibo Zheng; Tönu Pullerits; Jianjun Tian
Journal: Appl Phys Lett Date: 2016-05-24 Impact factor: 3.791

Review 4. Quantum Dot Sensitized Solar Cell: Photoanodes, Counter Electrodes, and Electrolytes.

Authors: Nguyen Thi Kim Chung; Phat Tan Nguyen; Ha Thanh Tung; Dang Huu Phuc
Journal: Molecules Date: 2021-04-30 Impact factor: 4.411

5. Homogeneous photosensitization of complex TiO₂ nanostructures for efficient solar energy conversion.

Authors: Jingshan Luo; Siva Krishna Karuturi; Lijun Liu; Liap Tat Su; Alfred Iing Yoong Tok; Hong Jin Fan
Journal: Sci Rep Date: 2012-06-12 Impact factor: 4.379

6. Electron spin coherence near room temperature in magnetic quantum dots.

Authors: Fabrizio Moro; Lyudmila Turyanska; James Wilman; Alistair J Fielding; Michael W Fay; Josef Granwehr; Amalia Patanè
Journal: Sci Rep Date: 2015-06-04 Impact factor: 4.379

Review 7. Graphene hybrids: synthesis strategies and applications in sensors and sensitized solar cells.

Authors: Sushmee Badhulika; Trupti Terse-Thakoor; Claudia Villarreal; Ashok Mulchandani
Journal: Front Chem Date: 2015-06-30 Impact factor: 5.221

8. Photodeposition of Ag2S on TiO2 nanorod arrays for quantum dot-sensitized solar cells.

Authors: Hongwei Hu; Jianning Ding; Shuai Zhang; Yan Li; Li Bai; Ningyi Yuan
Journal: Nanoscale Res Lett Date: 2013-01-03 Impact factor: 4.703

9. Quantum-dot-sensitized solar cell with unprecedentedly high photocurrent.

Authors: Jin-Wook Lee; Dae-Yong Son; Tae Kyu Ahn; Hee-Won Shin; In Young Kim; Seong-Ju Hwang; Min Jae Ko; Soohwan Sul; Hyouksoo Han; Nam-Gyu Park
Journal: Sci Rep Date: 2013-01-10 Impact factor: 4.379

10. Integration of CdSe/CdSexTe1-x Type-II Heterojunction Nanorods into Hierarchically Porous TiO2 Electrode for Efficient Solar Energy Conversion.

Authors: Sangheon Lee; Joseph C Flanagan; Joonhyeon Kang; Jinhyun Kim; Moonsub Shim; Byungwoo Park
Journal: Sci Rep Date: 2015-12-07 Impact factor: 4.379