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Invited Book Chapters

  1. S. Chang, Lawrence T. L. Lee, T. Chen,* High-Efficiency Solar Cells: Physics, Materials, and Devices (Editors: Xiaodong Wang and Zhiming M. Wang), Springer International Publishing Switzerland 2014, Chapter 17, pp 515-544 .
  2. J. He, B. H. Wang, S. Chang, T. Chen,* Organometallics and Related Molecules for Energy Conversion Springer International Publishing Switzerland, 2015, Chapter 4, pp91-114.

Journal Publications

2022

  1. Y. Wang, R. F. Tang, L. Huang, C. Qian, W. T. Lian, C. F. Zhu,*T. Chen,* Post-Treatment of TiO2 Film Enables High-Quality Sb2Se3 Film Deposition for Solar Cell Applications, ACS Applied Materials & Interfaces , (Accepted)

  2. P. G. Liu, Z. X. Huang, S. K. Yang, J. Y. Du, Y. D. Zhang, R. Cao, C. Chen, L. Li, T. Chen, G. M. Wang, D. W. Rao, X. S. Zheng,* X. Hong, Support Amorphization Engineering Regulates Single-Atom Ru as an Electron Pump for Nitrogen Photofixation, ACS Catal. , 2022, 12, 8139−8146

  3. W. H. Liang, D. W. Rao, T. Chen,* R. F. Tang, J. Li,* H. L. Jin,* Zn0.52V2O5-a·1.8H2O Cathode Stabilized by in-situ Phase Transformation for Aqueous Zinc Ion Batteries with Ultra-long Cyclability, Angew. Chem. Int. Ed. , 2022, e202207779

  4. H. S. Wang, J. Sun, Y. S. Gu, C. Q. Xu, Y. W. Lu, J. T. Hu, T. Chen, C. F. Zhu, P. F. Luo,* Solvent-engineering-processed CsPbIBr2 inorganic perovskite solar cells with efficiency of ~11%, Solar Energy Materials and Solar Cells , 238 (2022) 111640

  5. J. X. Gao, R. F. Tang,* H. L. Cai, Z. Y. Cai, P. Xiao, G. Li, C. H. Jiang, C. F. Zhu,* T. Chen,* Oriented Organization of poly(3-hexylthiophene) for Efficient and Stable Antimony Sulfide Solar Cells, Energy & Environmental Mater. , (Accepted)

  6. R. Cao, P. Xiao, W. T. Lian, L. J. Zhang, Y. Wang, C. F. Zhu, T. Chen,* Intrinsic Trapping and Recombination Dynamics in Low-Dimensional Bismuth Sulfide Nanocrystals, Adv. Mater. Interfaces , 2022, 2200219

  7. L. Wang, W. T. Lian, B. Liu, H. F. Lv, Y. Zhang,* X. J. Wu,T. Wang, J. L. Gong,* T. Chen,* H. X. Xu, Transparent, High-Performance and Stable Sb2S3 Photoanode Enabled by Heterojunction Engineering with Conjugated Polycarbazole Frameworks for Unbiased Photoelectrochemical Overall Water Splitting Devices, Adv. Mater. , 2022, 34, 2200723

  8. S. L. Chu, Y. H. Zhang, P. Xiao, W. J. Chen, R. F. Tang, Y. Shao, T. Chen, X. Q. Zhang, F. G. Liu, T. Chen, Z. G. Xiao* Large-Area and Efficient Sky-Blue Perovskite Light-Emitting Diodes via Blade-Coating, Adv. Mater. , 2022, 34, 2108939

  9. R. Liu, C. Dong, L. X. Zhu, J. W. Chen,* J. Huang, W. B. Cao, X. Q. Zhang, C. F. Ge, S. F. Yang, T. Chen, M. T. Wang,* Heteroepitaxial and homoepitaxial nucleation strategies to grow Sb2S3 nanorod arrays and therefrom a derived gain of 7.18%-efficient Sb2(S,Se)3 quasi-nanoarray heterojunction solar cells, Applied Materials Today , 27(2022) 101487

  10. Y. Q. Huang, R. F. Tang, G. Wang,* G. Li, B. Che, Y. Wang, W. T. Lian, C. F. Zhu, T. Chen,* Chemical insight into the hydrothermal deposition of Sb2(S,Se)3 towards delicate microstructure engineering, J. Mater. Chem. A , 2022

  11. G. Li, J. B. Dong, P. Xiao, B. Che, Y. Q. Huang, Y. Zhang, R. F. Tang,* C. F. Zhu, T. Chen,* Dual effect of NH4F additive in the hydrothermal deposition of antimony selenosulfide thin film for high-performance solar cells, SCIENCE CHINA Materials , (Accepted)

  12. Y. N. Xiang, H. X. Guo, Z. Y. Cai, C. H. Jiang, C. F. Zhu, Y. Z. Wu,* W. H. Zhu, T. Chen,* Dopant-free hole-transporting materials for stable Sb2(S,Se)3 solar cells, Chem. Comm. , 2022,58, 4787

  13. W. T. Lian, R. Cao, G. Li, H. L. Cai, Z. Y. Cai, R. F. Tang, C. F. Zhu, S. F. Yang, T. Chen,* Distinctive Deep-Level Defects in Non-Stoichiometric Sb2Se3 Photovoltaic Materials, Adv. Sci., 2022, 2105268.

  14. C. Qian, J. J. Li, K. W. Sun, C. H. Jiang, J. L. Huang, R. F. Tang, G. Martin, H. Bram,* T. Chen,* X. J. Hao,* 9.6%-Efficient all-inorganic Sb2(S,Se)3 solar cells with a MnS hole-transporting layer, J. Mater. Chem. A, 2022, 10, 2835–2841

  15. G. Li, Y. Q. Huang, R. F. Tang, B. Che, P. Xiao, W. T. Lian, C. F. Zhu, T. Chen,* An n–n type heterojunction enabling highly efficient carrier separation in inorganic solar cells, Chin. Phys. B, 31, 038803 (2022)

  16. M. Azam, Y. D. Luo, R. Tang, S. Chen, Z. H. Zheng, Z. H. Su, A. Hassan, P. Fan, H. L. Ma, T. Chen, G. X. Liang,* X. H. Zhang, Organic Chloride Salt Interfacial Modified Crystallization for Efficient Antimony Selenosulfide Solar Cells, ACS Appl. Mater. Interfaces., 2022, 14, 4276-4284

    17. 2021

    1. X. D. Ren, B. B. Zhang, L. Zhang, J. L. Wen, B. Che, D. L. Bai, J. X. You,* T. Chen, S. Z. Liu,* Deep-Level Transient Spectroscopy for Effective Passivator Selection in Perovskite Solar Cells to Attain High Efficiency over 23%, Chem. Sus. Chem., 2021, 14,3182-3189.

    2. C. H. Jiang,# Z. Wang,# R. F. Tang, C. F. Zhu,* L. J. Zhang,* T Chen,* Gold Atom Diffusion Assisted Thermal Healing Enabling High-Performance Hole-Transporting Material in Solar Cells, Appl. Phys. Lett., 119, 211904 (2021)

    3. Y. Q. Zhao, S. Y. Wang, C. H. Jiang, C. Li, P Xiao, R. F. Tang, J. B. Gong, G. L. Chen, T . Chen,* J. M. Li,* X. D. Xiao,* Regulating Energy Band Alignment via Alkaline Metal Fluoride Assisted Solution Post-Treatment Enabling Sb2(S,Se)3 Solar Cells with 10.7% Efficiency, Adv. Energy Mater. , 2021, 2103015.

    4. L. J. Zhang, C. F. Zhu, T. Chen,* Solution processed AgSbS2 film for efficient planar heterojunction solar cells, Appl. Phys. Lett. , 119, 151906 (2021).

      Invited Paper: Special Topic Collection on New Solution-processed Perovskites and Perovskite-inspired Optoelectronic Materials and Devices.
    5. L. X. Zhu, J. W. Chen, R. Liu, C. Dong, S. F. Yang, T . Chen, C. Chen,* Q. Qiao, M. T. Wang,* Solution-Processed Compact Sb2S3 Thin Films by a Facile One-Step Deposition Method for Efficient Solar Cells, Solar RRL , 2021, 2100666.

    6. J . J . Zhang, L . X . Wang, C . H . Jiang, B . Cheng, T. Chen,* J. G. Yu,* CsPbBr3 nanocrystal induced bilateral interface modification for efficient planar perovskite solar cells, Advanced Science , 2021,2102648.

    7. S. Chen, T. Liu, Z. Zheng, M. Ishaq, G. Liang, P. Fan,T. Chen, J. Tang, Recent progress and perspectives on Sb2Se3-based photocathodes for solar hydrogen production via photoelectrochemical water splitting, Journal of Energy Chemistry , 2021,08,062.

    8. P. Y. Ho, Y. Wang, S. C. Yiu, Y. Y. Kwo, C. H. Siu, C. L. Ho,*,L. T. L. Lee, T. Chen,* Photophysical characteristics and photosensitizing abilities of thieno[3,2-b]thiophene-based photosensitizers for photovoltaic and photocatalytic applications, Journal of Photochemistry and Photobiology A: Chemistry , 2021,406,112979.

    9. R. Liu, Z. T. Shen, Z. Y. Wan, L. X. Zhu, J. W. Chen, C. Dong, W. W. Chen, W. B. Cao, B. Chen, X. G. Yuan, B. J. Ding, S. F. Yang, T. Chen, X. Y. Tian, C. Chen, M. T. Wang,* Nanoarray heterojunction and its efficient solar cells without negative impact of photogenerated electric field, Communincations Physics , 2021, 4, 177.

    10. W. T. Lian, C. H. Jiang, Y. W. Yin, R. F. Tang, G. Li, L. J. Zhang, B. Che, T. Chen* Revealing composition and structure dependent deep-level defect in antimony trisulfide photovoltaics, Nature Commun. , 2021, 12, 3260.

    11. D. Liu, R. F. Tang,* Y. Y. Ma, C. H. Jiang, W. T. Lian, G. Li, W. H. Han, C. F. Zhu,* T. Chen* Direct Hydrothermal Deposition of Antimony Triselenide Film for Efficient Planar Heterojunction Solar Cells, ACS Applied Materials & Interfaces , 2021, in press.


    12. R. F. Tang,T. Chen,* L. M. Ding,* Engineering microstructures for efficient Sb2(SxSe1−x)3 solar cells, Journal of Semiconductors , 2021, 42, 070230.

      Research Highlight.
    13. W. P. Hu, Z. L. Wei, X. Yu, P. S. Qian, W. T. Lian, X. C. Li, Y. B. Shang, X. J. Wu, T. Chen, Y. L. Lu, M. T. Wang, S. F. Yang,* In Situ Surface Fluorination of TiO2 Nanocrystals Reinforces Interface Binding of Perovskite Layer for Highly Efficient Solar Cells with Dramatically Enhanced Ultraviolet-Light Stability, Adv. Sci. , 2021, 2004662.

    14. Chenhui Jiang, Rongfeng Tang, Changfei Zhu,* Tao Chen* Recent Achievements in Solution Processed Antimony Selenosulfide Solar Cells, J. Univ. Sci. Tech. China , 2020, 50, 1383
      Invited Review Article.


    15. Yiwei Yin, Chenhui Jiang, Yuyuan Ma , Xiaomin Wang, Rongfeng Tang, Lijian Zhang, Zhiqiang Li, Changfei Zhu, Tao Chen* Sequential Co-Evaporation and Deposition of Sb2(S,Se)3 Thin Film for Efficient Solar Cells, Advanced Materials, 2021, 2006689.
      This article also appears in: Hot Topic: Solar Cells, highlighed by MaterialsViewsChina: https://www.materialsviewschina.com/2021/03/52653/


    16. J. J. Li,* J. L. Huang, K. H. Li, Y. Y. Zeng, Y. F. Zhang, K. W. Sun, C. Yan, C. W. Xue, C. Chen, T. Chen, M. A. Green, J. Tang, X. J. Hao,* Defect-Resolved Effective Majority Carrier Mobility in Highly Anisotropic Antimony Chalcogenide Thin-Film Solar Cells, Solar RRL , 2021, 2000693.

      Highlighed by MaterialsViewsChina: https://www.materialsviewschina.com/2021/01/51403/
    17. Wenhao Han, Di Gao, Rongfeng Tang, Yuyuan Ma, Chenhui Jiang, Gang Li, Tao Chen,* Changfei Zhu,* Efficient Sb2(S,Se)3 solar modules enabled by hydrothermal deposition, Solar RRL, 2021, 2000750. This article also appears in: Hot Topic: Solar Cells


    2020

    1. X. C. Zhao, R. F. Tang,* L. J. Zhang, C. H. Jiang, X. M. Wang, W. H. Han, C. Y. Wu, H. X. Ju, T. Chen,* C. F. Zhu,* Efficient Coaxial n-i-p Heterojunction Sb2S3 Solar Cell , J. Phys. D: Appl. Phys. , 2020, Accepted.
      Invited Article: Special Issue on Photovoltaic Technologies.



    2. C. H. Jiang,# J. Zhou,# (# co-first authors) R. F. Tang, W. T. Lian, X. M. Wang, X. Y. Lei, H. L. Zeng, C. F. Zhu, W. H. Tang,* T. Chen,* 9.7%-Efficient Sb2(S,Se)3 Solar Cells with Dithieno[3,2-b:2′,3′-d]pyrrol-Cored Hole Transporting Material , Energy Environ. Sci. , 2021, 14, 359

    3. L. J. Zhang, W. T. Lian, X. C. Zhao, Y. W. Yin, T. Chen,* C. F. Zhu,* Sb2S3 Seed Mediated Growth of Low-Defect Sb2S3 on TiO2 Substrate for Efficient Solar Cells , ACS Appl. Energy Mater. , 2020, 3, 12417.

    4. Y. Y. Ma, Y. W. Yin, G. Li, W. T. Lian, J. W. Zhang, R. F. Tang, H. X. Ju, T. Chen,* Aqueous solution processed MoS3 as an eco-friendly hole -transport layer for all-inorganic Sb2Se3 solar cells , Chem. Commun. , 2020, https://doi.org/10.1039/D0CC05997H.

    5. W. T. Lian, R. F. Tang, Y. Y. Ma, C. Y. Wu, C.Chen, X. M. Wang, F. Fang, J. W. Zhang, H. X. Ju, C. F. Zhu, T. Chen,* Probing the trap states in N-i-P Sb2(S,Se)3 solar cells by deep-level transient spectroscopy, J. Chem. Phys. , 2020, 153, 124703.
      Invited paper "JCP Special Topic: Photocatalysis and Photoelectrochemistry".



    6. X. M. Wang,# R. F. Tang,# C. H. Jiang, W. T. Lian, H. X. Ju, G. S. Jiang, Z. Q. Li, C. F. Zhu, T. Chen,* Manipulating the electrical properties of Sb2(S, Se)3 film for high-efficiency solar cells , Adv. Energy Mater., 2020, 2002341.
      Highlighted in MaterialsViewsChina. https://www.materialsviewschina.com/2020/09/48672/


    7. R. F. Tang,# X. M. Wang,# W. T. Lian,# (equal contributions) J. L. Huang, Q. Wei, M. L. Huang, Y. Y. Yin, C. H. Jiang, S. F. Yang, G. C. Xing, S. Y. Chen, C. F. Zhu,* X. J. Hao,* M. A. Green, T. Chen,* Hydrothermal deposition of antimony selenosulfide thin films enables solar cells with 10% efficiency , Nature Energy , 2020, 5, 587-595

      Highlighted in Nature Research Device and Materials Engineering: https://devicematerialscommunity.nature.com/posts/antimony-selenosulfide-an-emerging-solar-material-with-10-efficiency. Reported by 科技日报:http://digitalpaper.stdaily.com/http_www.kjrb.com/kjrb/html/2020-07/27/node_4.htm;中新网:http://www.ecns.cn/news/2020-07-28/detail-ifzynuei9790275.shtml ; ChinaDaily: http://www.chinadaily.com.cn/a/202007/28/WS5f1fcfbca31083481725c97f.html ; AZO Materials: https://www.azom.com/news.aspx?newsID=54327


    8. C. H. Jiang, J. S. Yao, P. Huang, R. F. Tang, X. M. Wang, X. Y. Lei, H. L. Zeng, S. Chang, H. Z. Zhong, H. B. Yao, C. F. Zhu, T. Chen,* Perovskite Quantum Dots Exhibiting Strong Hole Extraction Capability for Efficient Inorganic Thin Film Solar Cells, Cell Reports Physical Science, 2020, 1, 100001.


    9. C. Chen, Y. W. Yin, W. T. Lian, L. F. Jiang, R. F. Tang, C. H. Jiang, C. Y. Wu, D. Gao, X. M. Wang, F. Fang, C. F. Zhu, T. Chen,* Pulsed laser deposition of antimony selenosulfide thin film for efficient solar cells, Appl. Phys. Lett. , 2020, 116, 133901. Highlighted as Editor's Pick.


    10. Y. Y. Ma, B. B. Tang, W. T. Lian, C. Y. Wu, X. M. Wang, H. X. Ju, C. F. Zhu, F. J. Fan, T. Chen,* Efficient Defect Passivation of Sb2Se3 Film by Tellurium Doping for High Performance Solar Cells, J. Mater. Chem. A , 2020, DOI: 10.1039/D0TA00443J


    11. J. W. Zhang, W. T. Lian, Y. W. Yin, X. M. Wang, R. F. Tang, C. Qian, X. J. Hao, C. F. Zhu, T. Chen,* All Antimony Chalcogenide Tandem Solar Cell , Solar RRL , 2020,2000048.
      Highlighted in MaterialsViewsChina: https://www.materialsviewschina.com/2020/03/43280/

    12. W. P. Hu, Z. M. Fang, W. T. Lian, Y. B. Shang, X. C. Li, W. R. Zhou, M. M. Zhang, T. Chen, Y. L. Lu, L. J. Zhang, L. M. Ding,* and S. F. Yang,* Bulk Heterojunction Gifts Bismuth-Based Lead-Free Perovskite Solar Cells with Record Efficiency, Nano Energy , 2020, 68, 104362.

2019

  1. Z. L. Yang,# X. M. Wang,# Y. Z. Chen,# (# equal contribution) Z. F. Zheng, Z. Chen, W. Q. Xu, Y. Yang, J. Zhao, T. Chen,* H. M. Zhu,* Ultrafast Self-trapping of Photoexcited Carriers Sets the Upper Limit on Sb2S3 Photovoltaic Devices , Nature Commun. , 2019, 10, 4540.


  2. M. M. Yao,# C. H. Jiang,# (# equal contribution) J. S. Yao, K. H. Wang, C. Chen, Y. C. Yin, B. S. Zhu, T. Chen,H. B. Yao,* General Synthesis of Lead-Free Metal Halide Perovskite Colloidal Nanocrystals in 1-Dodecanol , Inorg. Chem. , 2019, DOI: 10.1021/acs.inorgchem.9b01893.


  3. P. C. Zhou, B. R. Li, Z. M. Fang, W. R. Zhou, M. M. Zhang, W. P. Hu, T. Chen,Z. G. Xiao,* S. F. Yang,* Nitrogen-Doped Nickel Oxide as Hole Transport Layer for High-Efficiency Inverted Planar Perovskite Solar Cells, Solar RRL, 2019. 3, 10.1002/solr.201900164.


  4. W. P. Hu, W. R. Zhou, X. Y. Lei, P. C. Zhou, M. M. Zhang, T. Chen,H. L. Zeng, J. Zhu, S. Y. Dai, S. H. Yang,* S. F. Yang,* Low-Temperature In-situ Amino Functionalization of TiO2 Nanoparticles Sharpens Electron Management Reaping over 21% Efficient Planar Perovskite Solar Cells, Adv. Mater. , 2019. 31, 1806095.


  5. C. Y. Wu, C. H. Jiang, X. M. Wang, H. H. Ding, H. X. Ju, L. J. Zhang, T. Chen,* C. F. Zhu,* Interfacial Engineering by Indium-doped CdS for High Efficiency Solution Processed Sb2(S1-xSex)3 Solar Cells , ACS Appl. Mater. Interfaces , 2019. 11. 3207-3213.


  6. C. H. Jiang, R. F. Tang, X. M. Wang, H. X. Ju, G. L. Chen, T. Chen,* Alkali Metals Doping for High-Performance Planar Heterojunction Sb2S3 Solar Cells, Solar RRL 2019, 1800272.
    Highlighted in MaterialsViewsChina: http://www.materialsviewschina.com/2018/12/31527/



  7. Y. W. Yin, C. Y. Wu, R. F. Tang, C. H. Jiang, G. S. Jiang, W. F. Liu, T. Chen,* C. F. Zhu,* Composition Engineering of Sb2S3 film Enabling High Performance Solar Cells, Sci. Bull., 2019, 64, 136-141.


  8. T. Zhang, L. J. Zhang, Y. W. Yin, C. H. Jiang, S. A. Li, C. F. Zhu,* T. Chen,* A Thiol-Amine Mixture for Metal Oxide towards Device Quality Metal Chalcogenides, Sci. China. Mater., 2019, 899-906.


  9. X. M. Wang, R. F. Tang, Y. W. Yin, H. X. Ju, S. A. Li, Y. Zhang C. F. Zhu,* T. Chen,* Interfacial Engineering for High Efficiency Solution Processed Sb2Se3 Solar Cells, Solar Energy Materials and Solar Cells, 2019, 189, 5-10.


  • 2018
    1. W. H. Wang,# X. M. Wang,# (# equal contribution) G. L. Chen,* X. J. Huang, T. Chen,* C. F. Zhu, S. Y. Chen, Z. G. Huang, Y. Zhang,* Over 6% Certified Sb2(S,Se)3 Solar Cells Fabricated via In Situ Hydrothermal Growth and Postselenization, Adv. Electron. Mater. , 2018, 1800683. Highlighted in MaterialsViewsChina.


    2. L. J. Zhang, C. Y. Wu, W. F. Liu, S. F. Yang, M. T. Wang, T. Chen,* C. F. Zhu,* Sequential Deposition Route to Efficient Sb2S3 Solar Cells, J. Mater. Chem. A , 2018, 6, 21320-21326. Themed collection: 2018 Journal of Materials Chemistry A HOT Papers.


    3. W. H. Wang, G. L. Chen,* Z. Z. Wang, K. Wang, S. Y. Chen, Z. G. Huang, X. M. Wang, T. Chen,* C. F. Zhu, X. K. Kong,* Full-inorganic Sb2(S,Se)3 solar cells using carbon as both hole selection material and electrode, Electrochimica Acta , 2018, 290, 457-464.


    4. (# co-first authors) W. H. Wang,# X. M. Wang,# G. L. Chen,* B. W. Chen, H. L. Cai, T. Chen,* S. Y. Chen, Z. G. Huang, C. F. Zhu and Y. Zhang,* Promising Sb2(S,Se)3Solar Cells with High OpenVoltage by Application of a TiO2/CdS Double BufferLayer, Solar RRL , 2018, Article ASAP, https://doi.org/10.1002/solr.201800208.


    5. R. F. Tang, X. M. Wang, C. H. Jiang, S. A. Li, W. F. Liu, H. X. Ju, S. F. Yang, C. F. Zhu,* T. Chen,*N-type Doping of Sb2S3 Light Harvesting Film Enabling High Efficiency Planar Heterojunction Solar Cells, ACS Appl. Mater. Interfaces, 2018, 10, 30314-30321.


    6. R. F. Tang, X. M. Wang, C. H. Jiang, S. A. Li, G. S. Jiang, S. F. Yang, C. F. Zhu,* T. Chen,*Vacuum assisted solution processing for highly efficient Sb2S3 solar cells, J. Mater. Chem. A, 2018, 6, 16322-16327.


    7. S. A. Li, Y. Zhang, R. F. Tang, X. M. Wang, T. Zhang, G. S. Jiang, W. F. Liu, C. F. Zhu,* T. Chen,*Aqueous solution based approach towards carbon-free Sb2S3 film for high efficiency solar cells, ChemSusChem, 2018,Article ASAP.


    8. L. J. Zhang, C. H. Jiang,C. Y. Wu, H. X. Ju,* G. S. Jiang, W. F. Liu, C. F. Zhu,* T. Chen,*V2O5 as Hole Transporting Material for Efficient All Inorganic Sb2S3 Solar Cells, ACS Appl. Mater. Interfaces, 2018, 10, 27098-27105.


    9. X. Jin, Y. Yuan (equal contribution), C. H. Jiang, H. X. Ju,* G. S. Jiang, W. F. Liu, C. F. Zhu,* T. Chen,*Solution processed NiOx hole-transporting material for all-inorganic Sb2S3 solar cells, Solar Energy Materials and Solar Cells, 2018, 185, 542-548.


    10. Y. Zhang, S. A. Li, R. F. Tang, X. M. Wang, C. Chen, W. T. Lian, C. F. Zhu,* T. Chen,*Phosphotungstic Acid Regulated Chemical Bath Deposition of Sb2S3 for High-Efficiency Planar Heterojunction Solar Cell, Energy Technology, 2018, http://dx.doi.org/10.1002/ente.201800238.


    11. C. Y. Wu, L. J. Zhang, H. H. Ding, H. X. Ju,* X. M. Wang, C. F. Zhu,* T. Chen,*Direct Solution Deposition of Device Quality Sb2S3-xSex Films for High Efficiency Solar Cells, Solar Energy Materials and Solar Cells, 2018, 183, 52-58.


    12. W. R. Zhou, P. C. Zhou, X. Y. Lei, Z. M. Fang, M. M. Zhang, Q. Liu, T. Chen, H. L. Zeng, L. M. Ding,* J. Zhu, S. Y. Dai, S. F. Yang,* Phase Engineering of Perovskite Materials for High-efficiency Solar Cells: Rapid Conversion of CH3NH3PbI3 to Phase-pure CH3NH3PbCl3 via Hydrochloric Acid Vapor Annealing Post-treatment, ACS Appl. Mater. Interfaces, 2018, 10, 1897-1908.


    13. X. M. Wang, R. F. Tang, C. Y. Wu, C. F. Zhu,* T. Chen,* Development of antimony sulfide-selenide Sb2(S, Se)3-based solar cells, J. Energy Chem., 2018, 27, 713-721. Invited Review Article.


  • 2017
    1. X. Jin, X. Y. Lei, C. Y. Jiang, G. S. Jiang, W. F. Liu, H. L. Zeng,* T. Chen,* C. F. Zhu,* Cu2-xGeS3: A New Hole Transporting Material for Stable and Efficient Perovskite Solar Cell, J. Mater. Chem. A, 2017, 5, 19884-19891.


    2. P. C. Zhou, Z. M. Fang, W. R. zhou, Q. Q. Qiao, M. T. Wang T. Chen,* S. F. Yang,* Nonconjugated Polymer Poly(vinylpyrrolidone) as an Efficient Interlayer Promoting Electron Transport for Perovskite Solar Cells, ACS Appl. Mater. Interfaces, 2017, DOI: 10.1021/acsami.7b12135.


    3. C. H. Siu, L. T. L. Lee, P. Y. Ho, C. L. Ho,* T. Chen,* S. Suramitr, S. Hannongbua,* Z. Y. Xie, M. D. Wei and W. Y. Wong,* Bis (phenothiazyl‐ethynylene)‐Based Organic Dyes Containing Di‐Anchoring Groups with Efficiency Comparable to N719 for Dye‐Sensitized Solar Cells, Chem. Asia J, 2017, 12, 332-340.


    4. L. Deng, J. L. Xie, B. H. Wang, T. Chen, C. M. Li,* Chlorinated fluorine doped tin oxide electrodes with high work function for highly efficient planar perovskite solar cells, Appl. Phys. Lett., 2017, 110, 263901.


    5. (# co-first authors) Y. Zhang,# J. M. Li,# G. S. Jiang, W. F. Liu, S. F. Yang, C. F. Zhu,* T. Chen,* Selenium-Graded Sb2(S1-xSex)3 for Planar Heterojunction Solar Cell Delivering a Certified Power Conversion Efficiency of 5.71%, Solar RRL, 2017, 1, 1700017
      Front Cover, highlighted in MaterialsViewsChina: http://www.materialsviewschina.com/2017/05/25192/.


    6. X. M. Wang, J. M. Li, S. F. Yang, C. F. Zhu, T. Chen,* A fast chemical approach towards Sb2S3 film with large grain size for high-performance planar heterojunction solar cells, Nanoscale, 2017, 9. 3386-3390.


    7. W. R. Zhou, J. M. Zhen, Q. Liu, Z. M. Fang, D. Li, P. C. Zhou, T. Chen,* S. F. Yang,* Successive surface engineering of TiO2 compact layers via dual modification of fullerene derivatives affording hysteresis-suppressed high-performance perovskite solar cells,, J. Mater. Chem. A, 2017, 5, 1724-1733.


  • 2016
    1. Q. L. Wu, W. R. Zhou, Q. Liu, P. C. Zhou, T. Chen, Y. L. Lu, Q. Q. Qiao, S. F. Yang,* Solution-Processable Ionic Liquid as an Independent or Modifying Electron Transport Layer for High-Efficiency Perovskite Solar Cells, ACS Appl. Mater. Interfaces, 2016, 8, 34464-34473.


    2. J. He, C. F. Ng, K. Y. Wong, W. F. Liu, T. Chen,* Improvement of Photostability and Moisture Stability of CH3NH3PbI3-based Solar Cells by Ethyl Cellulose, ChemPlusChem, 2016, online. Invited Article- “Early Career Series”.


    3. Q. L. Wu, P. C. Zhou, W. R. Zhou, X. F. Wei, T. Chen, S. F. Yang,* Acetate Salts as Nonhalogen Additives To Improve Perovskite Film Morphology for High-Efficiency Solar Cells, ACS Appl. Mater. Interfaces, 2016, 8, 15333-15340.


    4. F. Wu, B. H. Wang, R. Wang, Y. H. Shan, D. Y. Liu, K. Y. Wong, T. Chen,* L. N. Zhu,* Investigation on a dopant-free hole tansport material for perovskite solar cells, RSC. Adv., 2016, 6, 69365.


    5. B. H. Wang, K. Y. Wong, S. F. Yang T. Chen*, Crystallinity and Defect State Engineering in Organo-Lead Halide Perovskite for High-Efficiency Solar Cells, J. Mater. Chem. A, 2016, 4, 3806-3812.


    6. Z. C. Wu, B. H. Wang, J. He, T. Chen,* Synthesis of tunable-band-gap "Open-Box" halide perovskites by use of anion exchange and internal dissolution procedures, J. Collolidal and Interface Sci., 2016, 461, 162-167.


    7. C. H. Siu, L. T. L. Lee, S. C. Yiu, P. Y. Ho, P. W. Zhou, C. L. Ho,* T. Chen* J. R. Liu, K. L. Han,* W. Y. Wong,* , Synthesis and Characterization of Phenothiazine-Based platinum (II)-acetylide photosensitizers for efficiency dye-sensitized solar cells,, Chem. Eur. J., 2016, 21, 3750-3757.


    8. Y. Ho, C. H. Siu, W. H. Yu, P. W. Zhou, T. Chen,* C. L. Ho,* L. T. L. Lee, Y. H. Feng, J. Y. Liu, K. L. Han,* Y. H. Lo,*, W. Y. Wong,* Molecular engineering of starburst triarylamine donor with selenophene containing π-linker for dye-sensitized solar cells, J. Mater. Chem. C, 2016, 4, 713-726.


  • 2015
    1. Z. C. Wu,* Y. J. Xue, Y. L. zhang, J. J. Li, T. Chen*, SnS2 nanosheet-based microstructures with high adsorption capabilities and visible light photocatalystic activities, , RSC Adv., 2015, 5, 24640-24648.
    2. B. H. Wang, T. Chen*, Exceptionally Stable CH3NH3PbI3 Films in Moderate Humid Environment, Adv. Sci., 2015, 1500262. Highlighted in Materials View China.
    3. J. He, T. Chen*, Additive Regulated Crystallization and Film Formation of CH3NH3PbI 3-xBrx for Highly Efficient Planar-Heterojunction Solar Cells,, J. Mater. Chem. A, 2015, 3, 18514.
    4. B. H. Wang, K. Y. Wong, X. D. Xiao T. Chen,* Elucidating the Reaction Pathways in the Synthesis of Organolead Trihalide Perovskite for High-Performance Solar Cells, Sci. Rep., 2015, 5, 10557.
    5. W. H. Hu, Y. S. Liu,T. Chen,Y. Liu,* C. M. Li,* Hybrid ZnO Nanorod-Polymer Brush Hierarchically Nanostructured Substrate for Sensitive Antibody Microarrays, Adv. Mater., 2015, 27, 181-185.
    6. Y. Hua, L. T. L. Lee, C. S. Zhang, J. Z. Zhao, T. Chen,*W. Y. Wong,* W. K. Wong,* X. J. Zhu,* Co-sensitization of 3D Bulky Phenothiazine-cored Photosensitizer with Planar Squaraine Dye for Efficient Dye-Sensitized Solar Cells, J. Mater. Chem. A, 2015, 3, 13848-13855.
    7. Y. Hua, J. He, C. Zhang, C. Qin, L. Han, J. Zhao, T. Chen,* W. Y. Wong,* W. K. Wong,* X. J. Zhu,* Effects of various π-conjugated spacers in thiadiazole [3, 4-c] pyridine-cored panchromatic organic dyes for dye-sensitized solar cells, J. Mater. Chem. A, 2015, 3, 3103-3112.
    8. S. Chang, T. Chen,* Mesoscopic Solar Cell Sensitization: from Dye to Organometal Perovskite, Current Nanoscience, 2015, 11, 685-701. Invited Review
    9. B. K. Chen, S. Chang, D. Y. Li, L. L. Chen, Y. T. Wang, T. Chen,B. S. Zou, H. Z. Zhong,* A. L. Rogach, Template synthesis of CuInS2 nanocrystals from In2S3 nanoplates and their application as counter electrodes in dye-sensitized solar cells, Chem. Mater., 2015, 27, 5949-5956.
    10. F. Wu, L. T. L. Lee, J. L. Liu, S. B. Zhao, T. Chen,* M. Wang, C. Zhong, L. N. Zhu,* Novel organic dyes based on diarylmethylene-bridged triphenylamine for dye-sensitized solar cells, Syn. Metal., 2015, 205, 70-77.
    11. F. Wu, S. B. Zhao, L. T. L. Lee, M. Wang,T. Chen, L. N. Zhu,* Novel D-π-A organic sensitizers containing diarylmethylene-bridged triphenylamine and different spacers for solar cell application, Tetrahedron Lett., 2015, 56, 1233-1238.
    12. F. Wu, S. Zhao, L. T. L. Lee, M. Wang,T. Chen, L. N. Zhu,*Dye-sensitized solar cells based on functionalized truxene structure, Chn. Chem. Lett., 2015,26, 955-962.
  • 2014
    1. C. H. Fang, H. L. Jia, S. Chang, Q. F. Ruan, P. Wang, T. Chen,* J. F. Wang,* (Gold Core)/(Titania Shell) Nanostructures for Plasmon-Enhanced Photon Harvesting and ROS Generation under Visible-to-Near-Infrared Light, Energy Environ. Sci., 2014, 7, 3431-3438.
    2. J. J. Lee, G. Z. Xing,* J. B. Yi,T. Chen,M. Ionescu, S. Li,Tailoring the coercivity in ferromagnetic ZnO thin films by 3d and 4f elements codoping, Appl. Phys. Lett., , 2014, 104, 012405.
    3. L. T. L. Lee, J. He, B. H. Wang, Y. P. Ma, K. Y. Wong, Q. Li, X. D. Xiao, T. Chen,* Few-Layer MoSe2 Possessing High Catalytic Activity towards Iodide/Tri-iodide Redox Shuttles, Sci. Rep., 2014, 4, 4063.
    4. J. He, L. T. L. Lee, S. H. Yang, Q. Li, X. D. Xiao, T. Chen,* Printable Highly Catalytic Pt- and TCO-Free Counter Electrode for Dye-Sensitized Solar Cells, ACS Appl. Mater. & Interfaces, 2014, 6, 2224-2229.
    5. S. Chang, K. Y. Wong, X. D. Xiao, T. Chen,* Effective Improvement of the Photovoltaic Performance of Black Dye Sensitized Quasi-Solid-State Solar Cells, RSC Adv., 2014, 4, 31759-31763.
    6. W. H. Hu, G. L. He, T. Chen, C. X. Guo, Z. S. Lu, J. N. Selvaraj, Y. Liu, C. M. Li, Graphene oxide-enabled tandem signal amplification for sensitive SPRi immunoassay in serum, Chem. Commun., 2014, 50, 2133-2135.
    7. C. L. Du, M. L. Huang, T. Chen, F. Sun, B. B. Wang, C. J. He, C. J. Du, D. N. Shi,Quadratic bulk and local refractive index sensitivities for individual Au/Ag nanosphere plasmon sensors, Sensor Actuat B-Chem, 2014, 203, 812-816.
    8. B. H. Wang, X. D. Xiao,* T. Chen,* Perovskite Photovoltaics: A High-Efficiency Newcomer to Solar Cell Family, Nanoscale, 2014, 6, 12287–12297. Invited Minireview.
    9. C. H. Siu, L. T. L. Lee, P. Y. Ho, P. Majumdar, C. L. Ho,*T. Chen,* J. Z. Zhao, W. Y. Wong,* Fluorene-Bridged Di-anchoring Dyes for Efficient Co-adsorbent-free Dye-Sensitized Solar Cells with High Open-Circuit Photovoltage, J. Mater. Chem. C, , 2014, 2, 7086-7095.
    10. Y. Hua, S Chang, J. He, C. S. Hang, J. Z. Zhao T. Chen,* W. Y. Wong,* W. K. Wong,* X. J. Zhu, * Molecular Engineering of Simple Phenothiazine-based Dyes to Modulate Dye Aggregation, Charge Recombination and Dye Regeneration in Highly Efficient Dye-Sensitized Solar Cells, Chem. Eur. J. , 2014, 20, 6300-6308.
    11. C. H. Siu, C. L. Ho,* J. He, T. Chen,* J. Z. Zhao, W. Y. Wong,* Optimizing the Photovoltaic Performance of Thiocyanate-free Ruthenium Photosensitizers by Structural Modification of C^N Cyclometalating Ligand in Dye-Sensitized Solar Cells, Polyhedron, , 2014, 82, 71-79.
    12. S Chang, H. D. Wang, L. T. L. Lee, S. Z. Zheng, Q. Li, K. Y. Wong, W. K. Wong, X. J. Zhu,* W. Y. Wong,* X. D. Xiao,*T. Chen,* Panchromatic Light Harvesting by N719 and a New Porphyrin Molecule for High-Performance Dye-Sensitized Solar Cell, J. Mater. Chem. C, , 2014, 2, 3521-3526.
  • 2013
    1. Y. Hua, S. Chang, H. D. Wang, D. D. Huang, J. Z. Zhao, T. Chen,* W. Y. Wong,* W. K. Wong,* and X. J. Zhu, * New phenothiazine-based dyes for efficient dye-sensitized solar cells: positioning effect of a donor group on the cell performance, J. Power Sources, 2013, 243, 253-259.
    2. C. L. Du,* J. P. Dong,T. Chen, C. J. He, D. N. Shi, Dielectric nanocup coating effect on the resonant optical properties of individual gold nanospheres,,Plasmonics, 2013, 8, 1523-1527.
    3. W. H. Hu, Z. S. Lu, Y. S. Liu, T. Chen, X. Q. Zhou, and C. M. Li,* A portable flow-through fluorescent immunoassay lab-on-a-chip using ZnO nanorod-decorated glass capillaries, Lab Chip, 2013, 13, 1797-1802.
    4. C. H. Siu, C. L. Ho,* J. He, T. Chen,X. N. Cui, J. Z. Zhao, W. Y. Wong,* Thiocyanate-free ruthenium(II) cyclometalated complexes containing uncommon thiazole and benzothiazole chromophores for dye-sensitized solar cells,,Organometallic Chem.,2013, 748, 75-83.
    5. S. Chang, H. D. Wang, Y. Hua, Q. Li, X. D. Xiao, W. K. Wong,* W. Y. Wong,* X. J. Zhu,* T. Chen,* Conformational engineering of co-sensitizers to retard back charge transfer for high-efficiency dye-sensitized solar cells,, J. Mater. Chem. A,2013, 1, 11553-11558.
    6. B. H. Wang, S. Chang, Lawrence T. L. Lee, S. Z. Zheng, K. Y. Wong, Q. Li, X. D. Xiao, T. Chen,* Improving Pore Filling of Gel Electrolyte and Charge Transport in Photoanode for High-Efficiency Quasi-Solid-State Dye-Sensitized Solar Cells, ACS Appl. Mater. Interfaces, 2013, 5, 8289-8293.
    7. Y. Hua, S. Chang, D. D. Zhao, J. Z. Zhao, X. Zhou, T Chen,* W. Y. Wong,* W. K. Wong* and X. J. Zhu,* Significant improvement of dye-sensitized solar cell performance by a convenient structural modification in simple phenothiazine-based dyes, Chem. Mater., 2013, 25, 2146-2153. ESI Highly Cited Paper.
  • 2012
    1. S. Chang, Q. Li, X. D. Xiao, K. Y. Wong, T. Chen*, Enhancement of Low Energy Sunlight Harvesting in Dye-Sensitized Solar Cells Using Plasmonic Gold Nanorod, Energy & Environ. Sci., 2012, 5 9444-9448. Top-ten most read EES articles in Sept. 2012.
    2. T. Chen, G. H. Guai, C. Gong, W. H. Hu, J. X. Zhu, H. B. Yang, Q. Y. Yan and C. M. Li*, Thermoelectric Bi2Te3-Improved Charge Collection for High-Performance Dye-Sensitized Solar Cells, Energy & Environ. Sci., 2012, 5, 6294-6298. Invited Article.
    3. T. Chen, W. H. Hu, J. L. Song, G. H. Guai, C. M. Li*, Interface Functionalization of Photoelectrodes with Graphene for High Performance Dye-Sensitized Solar Cells, Adv. Funct. Mater., 2012, 22, 5245-5250.
    4. Y. H. Feng, Y. Wang, H. Wang, T. Chen, Y. Y. Tay, L. Yao, Q. Y. Yan, S. Z. Li, and H. Y. Chen*, Engineering "Hot" Nanoparticles of Surface-Enhanced Raman Scattering by Embedding Reporter Molecules in Metal Layers, Small, 2012, 8, 246-251.
    5. G. H. Guai, Q. L. Song. C. X. Guo, Z. S. Lu,T. Chen, C. M. Ng, C. M. Li,* , Graphene-Pt\ITO counter electrode to significantly reduce Pt loading and enhance charge transfer for high performance dye-sensitized solar cell,, Solar Energy, 2012, 86, 20412048.
  • 2011
    1. Y. Wang, C. Guan, J. H. Liu, K. Wang, T. Chen*, X. Tan, C. M. Li,*, Hydrogen storage in Ni-B nanoalloy-doped 2D graphene., Int. J. Hydrogen Energy,2011, 36, 1295012954.
    2. W. W. Zhou, J. P. Liu, T. Chen, K. S. Tan, X. T. Jia, Z. Q. Luo, C. X. Cong, H. P. Yang, C. M. Li, T. Yu,*, Fabrication of Co3O4-reduced graphene oxide scrolls for high-performance supercapacitor electrodes,,Phys. Chem. Chem. Phys.,2011, 13, 14462–14465.
    3. Y. Wang, K. N. Wang, C. Guan, Z. M. He, Z. S. Lu, T. Chen, J. Liu, X. Tan, T. T. Y. Tan, C. M. Li,* , Surface functionalization-enhanced spillover effect on hydrogen storage of Ni-B nanoalloy-doped activated carbon,, Int. J. Hydrogen Energy, 2011, 36, 1366313668.
    4. C. L. Du, Y. M. You,T. Chen, H. L. Hu, Y. Zhu, D. N. Shi, H. Y. Chen, Z. X. Shen,* , Individual Ag nanowire dimer for surface-enhanced Raman scattering,, Plasmonics, 2011, 6, 761766.
    5. Y. Wang, J. H. Liu, C. X. Guo, T. Chen, H. B. Yang, C. M. Li,* , CeO2 nanoparticles deposited on three-dimensional graphene as supercapacitors with high power density,, Dalton Trans., 2011, 40, 63886391.
    6. T. Chen*, C. L. Du*, L. H. Tan, Z. X. Shen and H. Y. Chen, Site-selective localization of analytes on gold nanorod surfaces for investigating field enhancement distribution in surface-enhanced Raman scattering, Nanoscale, 2011, 3 (4), 1575-1581.
    7. C. X. Guo, M. Wang, T. Chen, X. W. Lou and C. M. Li*, A hierarchically nanostructured composite of MnO2/conjugated polymer/graphene for high-performance lithium ion batteries, Adv. Energy Mater., 2011, 1, 736-741. ESI Highly Cited Paper.
  • 2010
    1. T. Chen, H. Wang, G. Chen, Y. Wang, Y. H. Feng, T. S. Teo, T. Wu and H. Y. Chen*, Hotspot-induced transformation of surface-enhanced Raman scattering fingerprints, ACS Nano, 2010, 4, 3087-3094.
    2. T. Chen, G. Chen, S. X. Xing, T. Wu and H. Y. Chen*, Scalable route to Janus Au-SiO2 and ternary Ag-Au-SiO2 nanoparticles, Chem. Mater., 2010, 22, 3826-3828.
    3. H. Wang, J. Xu, J. H. Wang, T. Chen, Y. Wang, Y. W. Tan, H. B. Su, K. L. Chan and H. Y. Chen*, Probing the kinetics of drug release from nanocarriers to nanoacceptors, Angew. Chem., Int. Ed., 2010, 49, 8426 –8430.
    4. J. Xu, H. Wang, C. C. Liu, Y. M. Yang, T. Chen, Y. W. Wang, F. Wang, X. G. Liu, B. G. Xing*, and H. Y. Chen*, Mechanical nano-springs: induced coiling and uncoiling of ultrathin Au nanowires, J. Am. Chem. Soc., 2010, 132, 11920-11922.
    5. S. X. Xing, Y. H. Feng, Y. Y. Tay, T. Chen, J. Xu, M. Pan, J. T. He, H. H. Hng, Q. Y. Yan, and H. Y. Chen*, Reducing the symmetry of bimetallic Au@Ag nanoparticles by exploiting eccentric polymer shells, J. Am. Chem. Soc., 2010, 132, 9537–9539.
  • 2009
    1. S. X. Xing, L. H. Tan, T. Chen, Y. H. Yang and H. Y. Chen*, Facile fabrication of triple-layer (Au@Ag)@polypyrrole core-shell and (Au@H2O)@polypyrrole yolk-shell nanostructures, Chem. Commun., 2009, 1653-1654.
    2. L. H. Tan, S. X. Xing, T. Chen, G. Chen and H. Y. Chen*, Fabrication of polymer nanocavities with tailored openings, Acs Nano. 2009, 3469-3474.
    3. M. X. Yang, T. Chen, W. S. Lau, Y. Wang, Q. H. Tang, Y. H. Yang and H. Y. Chen*, Development of polymer-encapsulated metal nanoparticles as surface-enhanced Raman scattering probes, Small, 2009, 5, 198-202.
    4. C. L. Du, M. X. Yang, Y. M. You, T. Chen, H. Y. Chen, Z. X. Shen,* , Individual polymer-encapsulated Ag nanoparticle monomer and dimer for surface-enhanced Raman scattering,, Chem. Phys. Lett. 2009, 317320.
  • 2008
    1. G. P. Li, T. Chen, B. Yan, Y. Ma, Z. Zhang, T. Yu, Z. X. Shen, H. Y. Chen, and T. Wu*, Tunable wettability in surface-modified ZnO-based hierarchical nanostructures, Appl. Phys. Lett., 2008, 92, 173104.
    2. T. Chen, M. X. Yang, X. J. Wang, L. H. Tan and H. Y. Chen*, Controlled assembly of eccentrically encapsulated gold nanoparticles, J. Am. Chem. Soc., 2008, 130, 11858-11859.
    3. T. Chen, G. Z. Xing, Z. Zhang, H. Y. Chen and T. Wu*, Tailoring photoluminescence in ZnO nanowires using Au nanoparticles, Nanotechnology, 2008, 19, 435711. Top 10% most accessed articles of all IOP journals in 4th quarter, 2008.
    4. X. J. Wang, G. P. Li, T. Chen, M. X. Yang, Z. Zhang, T. Wu* and H. Y. Chen*, Polymer-encapsulated gold-nanoparticle dimers: facile preparation and catalytical application in guided growth of dimeric ZnO-nanowires, Nano Lett., 2008, 8, 2643-2647.

    • 2007

    1. T. Chen and K. B. Tang*, γ-Ga2O3 quantum dots with visible blue-green light emission property, Appl. Phys. Lett., 2007, 90, 053104.


    地址:中国安徽省合肥市金寨路96号中国科学技术大学材料科学与工程系
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