最新研究成果
2022
2021
2020
2019
2018
2017
2016
2015
2014
2013
2012
2011

  1. Minghao Xia,Yongkang Xia,Ziwei Zheng,Xiayan Chen,Jian Yang,Jiankang Du,Anyi Mei,Yue Hu,*Hongwei Han*. Defect Passivation by a Sulfur-Containing Lewis Base for Efficient Printable Mesoscopic Perovskite Solar Cells. Solar RRL. 2022.10.7. 2367-198X.

  2. Jiale Liu, Shiyu Wang, Mingyue Chen, Pei Jiang, Liangxin Cao, Wenhui Li, Hongbing Ran, Yue Hu,* Hongwei Han, and Yiwen Tang*. Trivalent Europium Ions Doped CsPbBr3 for Highly Efficient and Stable Printable Mesoscopic Perovskite Solar Cells and Driving Water Electrolysis. Solar RRL. 2022.7.1. 2367-198X.

  3. Jiale Liu, Sheng Li, Shuang Liu, Yanmeng Chu, Ting Ye, Cheng Qiu, Zexiong Qiu,

    Xiadong Wang, Yifan Wang, Yaqiong Su, Yue Hu, Yaoguang Rong, Anyi Mei,* and

    Hongwei Han*. Oxygen Vacancy Management for High-Temperature Mesoporous SnO2 Electron Transport Layers in Printable Perovskite Solar CellsAngewandte Chemie-International Edition. 2022.4.7. 1433-7851.

  4. Jian Yang, Jianfei Hu, Wenhao Zhang, Hongwei Han, Yonghua Chen, Yue Hu*. The opportunities and challenges of ionic liquids in perovskite solar cellsJournal of Energy Chemistry. 2022.10.30. 2095-4956.

  5. Jian Yang, Sheng Li, Xufeng Xiao, Jiankang Du, Minghao Xia, Xuan Xiao, Wei Wang,Wenjing Hu, Anyi Mei, Yue Hu* , Hongwei Han*. A multifunctional piperidine-based modulator for printable mesoscopic perovskite solar cells. Chemical Engineering Journal. 2022.5.13. 1385-8947.

  6. Wenhao Zhang, Jiankang Du, Weihua Zhang, Yanmeng Chu, Anyi Mei, Yaoguang Rong,Xinyu Gao, Hongwei Han, Yue Hu*. Unveiling the effect of amino acids on the crystallization pathways of methylammonium lead iodide perovskites. Journal of Energy Chemistry.2022.1.6. 2095-4956.

  7. Qiaojiao Gao, Jianhang Qi, Kai Chen, Minghao Xia, Yue Hu, Anyi Mei,* and Hongwei Han*. Halide Perovskite Crystallization Processes and Methods in Nanocrystals, Single Crystals, and Thin Films. Advanced Materials. 2022.7.20. 0935-9648

  8. Xufeng Xiao, Wenhao Zhang, Weihua Zhang, Jiangkang Du, Chunyu Zhang, Gengzhao Xu, Anyi Mei, Yaoguang Rong, Yue Hu,* and Hongwei Han*. Cl-Assisted Perovskite Crystallization Pathway in the Confined Space of Mesoporous Metal Oxides Unveiled by In Situ Grazing Incidence Wide-Angle X‑ray Scattering. Chemistry of Materials. 2022.2.18. 1520-5002.

  9. Cheng Qiu, Xia Lin, Yixiao Wang, Guanqun Feng, Chenxi Ling, Jiale Liu, Jiankang Du, Xufeng Xiao, Xi Wang, Peng Zeng, Mingzhen Liu, Wenxi Liang*, Yue Hu* and Hongwei Han*. Exploring the Charge Dynamics and Energy Loss in Printable Mesoscopic Perovskite Solar CellsAdvanced Energy Materials2022.10.181614-6832.

  10. Cheng Qiu, Lukas Wagner, Jiale Liu, Wenhao Zhang, Jiankang Du, Qifei Wang, Yue Hu* and Hongwei Han*Probing charge carrier dynamics in metal halide perovskite solar cells. EcoMat. 2022.10.14. 2567-3173.

  11. Deyi Zhang, Daiyu Li, Yue Hu, Anyi Mei, and Hongwei Han*Degradation pathways in perovskite solar cells and how to meet international standardsCommunications Materials. 2022.8.29. 2662-4443.

  12. Xiadong Wang, Wei Wang, Jiale Liu, Jianhang Qi, Yue He, Yifan Wang, Wenjing Hu,Yanjie Cheng, Kai Chen, Yue Hu, Anyi Mei,* and Hongwei Han*. Reducing Optical Reflection Loss for Perovskite Solar Cells Via Printable Mesoporous SiO2 Antireflection Coatings. Advanced Functional Materials. 2022.8.18. 1616-301X.

  13. Yifan Wang, Shuang Liu, Cheng Qiu, Xufeng Xiao, Xiadong Wang, Wenjing Hu, Wei Wang,Yue Hu, Anyi Mei *, Hongwei Han *. Varied performance of printable mesoscopic perovskite solar cells by the non-stoichiometric precursor. Electrochimica Acta. 2022.2.14. 0013-4686.

  14. Sheng Li,Jiale Liu,Shuang Liu,Deyi Zhang,Chao Liu,Daiyu Li,Jianhang Qi,Yue Hu ,Anyi Mei,Hongwei Han. Yttrium-doped Sn3O4 two-dimensional electron transport material for perovskite solar cells with efficiency over 23%. EcoMat.   2022.3.28. 2567-3173.


  1. Zexiong Qiu, Anyi Mei, Yue Hu,Yaoguang Rong, and Hongwei Han. Aiming at the industrialization of perovskite solar cells: Coping with stability challenge. Applied Physics Letters.2021.12.22. 0003-6951

  2. Chao Liu, Chenxu Gao, Wei Wang, Xiadong Wang, Yifan Wang, Wenjing Hu,Yaoguang Rong, Yue Hu, Lianbo Guo,* Anyi Mei,* and Hongwei HanCellulose-Based Oxygen-Rich Activated Carbon for Printable Mesoscopic Perovskite Solar CellsSolar RRL2021.8.52367-198X

  3. Jiale Liu,Yanjun Guan,Shuang Liu, Sheng Li, Chenxu Gao, Jiankang Du, Cheng Qiu, Daiyu Li, Deyi Zhang, Xiadong Wang, Yifan Wang, Yue Hu, Yaoguang Rong, Anyi Mei,* and Hongwei Han*Modulating Oxygen Vacancies in BaSnO3 for Printable Carbon Based Mesoscopic Perovskite Solar CellsACS Applied Energy Materials. 2021.9.21. 2574-0962

  4. Jiankang Du, Cheng Qiu, Sheng Li, Wenhao Zhang, Weihua Zhang, Yifan Wang, Zexiong Qiu, Qifei Wang, Kai Yang, Anyi Mei, Yaoguang Rong, Yue Hu,* and Hongwei Han*Minimizing the Voltage Loss in Hole-Conductor-Free Printable Mesoscopic Perovskite Solar CellsAdvanced Energy Materials2021.10.1. 81614-6832

  5. Wenhao Zhang, Weihua Zhang, Kai Wang, Yanmeng Chu, Jiankang Du, Anyi Mei, Yaoguang Rong, Yue Hu,* and Hongwei Han*"Revealing the Role of Bifunctional Molecules in Crystallizing Methylammonium Lead Iodide through Geometric Isomers"Chemistry of Materials2021.5.171520-5002

  6. Qingyi Huang, Zhe Li, Xiayan Chen, Yongkang Xia,Ziwei Zheng,Anyi Mei, Kai Zhu,Yue Hu, Ti Wang, Yaoguang Rong * and Hongwei HanInvestigating the iodide and bromide ion exchange in metal halide perovskite single crystals and thin filmsChemical Coummunications. 2021.6.5. 1359-7345

  7. Weihua Zhang,Jiankang Du,Cheng Qiu, Kai Yang,Qingyi Huang,Qifei Wang, Wenhao Zhang,Hongwei Han, Xingyu Gao *and Yue Hu *. Enhanced efficiency of printable mesoscopic perovskite solar cells using ionic liquid additives. Chemical Coummunications. 2021.3.29. 1359-7345

  8. Shuang Liu, Deyi Zhang , Yusong Sheng , Weihua Zhang, Zhaotong Qin, Minchao Qin, Sheng Li, Yifan Wang a , Chenxu Gao, Qifei Wang, Yue Ming, Chao Liu, Kai Yang , Qingyi Huang, Jianhang Qi, Qiaojiao Gao, Kai Chen, Yue Hu, Yaoguang Rong, Xinhui Lu, Anyi Mei , ∗ Hongwei Han   , ∗Highly oriented MAPbI 3 crystals for efficient hole-conductor-free printable mesoscopic perovskite solar cells. Fundamental Research. 2021.10.29. 2096-9457

  9. Kai Yang, Shuang Liu, Jiankang Du, Weihua Zhang, Qingyi Huang, Wenhao Zhang, Wenjing Hu, Yue Hu, Yaoguang Rong, Anyi Mei,* and Hongwei HanImproving Hole-Conductor-Free Fully Printable Mesoscopic Perovskite Solar Cells’ Performance with Enhanced Open-Circuit Voltage via the Octyltrimethylammonium Chloride Additive. Solar RRL. 2021.3.32367-198X

  10. Chao Liu, Shuang Liu, Yifan Wang, Yanmeng Chu, Kai Yang, Xiadong Wang,Chenxu Gao, Qifei Wang, Jiankang Du, Sheng Li, Yue Hu, Yaoguang Rong, Lianbo Guo,*Anyi Mei,* and Hongwei Han*. Improving the Performance of Perovskite Solar Cells via a Novel Additive of N,1-Fluoroformamidinium Iodide with Electron-Withdrawing Fluorine Group. Advanced Functional Materials. 2021.3.10. 1616-301X

  11. Daiyu Li, Pei Jiang, Wenhao Zhang, Jiankang Du, Chen Qiu, Jiale Liu, Yue Hu, Yaoguang Rong, Anyi Mei,* and Hongwei Han*. Series Resistance Modulation for Large-Area Fully Printable Mesoscopic Perovskite Solar Cells. Solar RRL. 2021.9.28. 2367-198X

  12. Xiayan Chen, Yongkang Xia, Qingyi Huang, Zhe Li, Anyi Mei, Yue Hu, Ti Wang, Rongrong Cheacharoen, Yaoguang Rong,* and Hongwei Han*. "Tailoring the Dimensionality of Hybrid Perovskites in Mesoporous Carbon Electrodes for Type-II Band Alignment and Enhanced Performance of Printable Hole-Conductor-Free Perovskite Solar Cells". Advanced Energy Materials. 2021.3.30. 1614-6832

  13. Xufeng Xiao, Yanmeng Chu, Chunyu Zhang, Zhihui Zhang, Zexiong Qiu, Cheng Qiu, Huaixing Wang, Anyi Mei, Yaoguang Rong, Gengzhao Xu, Yue Hu,∗ Hongwei Han,∗Enhanced perovskite electronic properties via A-site cation engineering. Fundamental Research. 2021.6.17. 2667-3258

  14. Deyi Zhang, Pei Jiang, Daiyu Li, Sheng Li, Jianhang Qi, Xiadong Wang, Yue Hu,Yaoguang Rong, Anyi Mei*, and Hongwei Han*. Halogen Bond Involved Post-Treatment for Improved Performance of Printable Hole-Conductor-Free Mesoscopic Perovskite Solar Cells. Solar RRL. 2021.12.4. 2367-198X

  15. Ziwei Zheng, Shiyu Wang, Yue Hu, Yaoguang Rong, Anyi Mei and Hongwei Han. Development of formamidinium lead iodide-based perovskite solar cells: efficiency and stability. Chemical science. 2021.12.13. 2041-6520



  1. Lukas Wagner, Cheng Qiu, Moritz Unmüssig, Dmitry Bogachuk, Simone Mastroianni, Uli Würfel, Yue Hu,* Hongwei Han, and Andreas Hinsch*A 2D Model for Interfacial Recombination in Mesoscopic Perovskite Solar Cells with Printed Back ContactSol. RRL 2020, 2000595. 202012.

  2. Daiyu Li, Deyi Zhang, Kwang-Soo Lim, Yue Hu, Yaoguang Rong, Anyi Mei,* Nam-Gyu Park,* and Hongwei Han*. A Review on Scaling Up Perovskite Solar Cells. Adv. Funct. Mater. 2020, 2008621. 20201211

  3. Shiyu Wang, Wenjian Shen, Yanmeng Chu, Weihua Zhang, Li Hong, Anyi Mei, Yaoguang Rong, Yiwen Tang,* Yue Hu,* and Hongwei Han. Mesoporous-Carbon-Based Fully-Printable All-Inorganic Monoclinic CsPbBr3 Perovskite Solar Cells with Ultrastability under High Temperature and High Humidity. J. Phys. Chem. Lett. 2020, 11, 9689-9695. 20201102.

  4. Sheng Li, Fei Qin, Qi Peng, Shuang Liu, Zhihui Zhang, Deyi Zhang, Chao Liu, Daiyu Li, Jiale Liu, Jianhang Qi, Yue Hu, Yaoguang Rong, Anyi Mei,* and Hongwei Han. van der Waals Mixed Valence Tin Oxides for Perovskite Solar Cells as UV-Stable Electron Transport Materials. Nano Lett. 2020, 20, 8178-8184. 20201030

  5. Anyi Mei, Yusong Sheng, Yue Ming, Yue Hu, Yaoguang Rong, Weihua Zhang, Shulin Luo, Guangren Na, Chengbo Tian, Xiaomeng Hou, Yuli Xiong, Zhihui Zhang, Shuang Liu, Satoshi Uchida, Tae-Woong Kim, Yongbo Yuan, Lijun Zhang, Yinhua Zhou, and Hongwei Han*. Stabilizing Perovskite Solar Cells to IEC61215:2016 Standards with over 9,000-h Operational Tracking. Joule 2020, 4, 2646-2660. 20201016.

  6. Jiankang Du, Shuang Liu, Jiawen Wu, Weihua Zhang, Wenhao Zhang, Anyi Mei, Yaoguang Rong, Yue Hu,* and Hongwei HanCrystallization Control of Methylammonium-Free Perovskite in Two-Step Deposited Printable Triple-Mesoscopic Solar CellsSol. RRL 2020, 4, 2000455. 20201009

  7. Haoran Ding, Yanmeng Chu, Mengyu Xu, Shicong Zhang, Haoran Ye, Yue Hu,* and Jianli Hua*. Effect of π-bridge groups based on indeno[1,2-b]thiophene D–A–π–A sensitizers on the performance of dye-sensitized solar cells and photocatalytic hydrogen evolution. J. Mater. Chem. C 2020, 8, 14864. 20200921.

  8. Zhihui Zhang, Jiawen Wu, Sheng Li, Shuang Liu, Qifei Wang, Anyi Mei, Yaoguang Rong, Hongwei Han, and Yue Hu*. Progress in Multifunctional Molecules for Perovskite Solar Cells. Sol. RRL 2020, 4, 1900248. 20200725.

  9. Deyi Zhang, Yaoguang Rong, Yue Hu, Anyi Mei, and Hongwei Han*. Hole-conductor-free perovskite solar cells. MRS Bulletin.   2020, 45, 449-457. 20200616.

  10. Yusong Sheng, Wenxian Ji, Yanmeng Chu, Yue Ming, Anyi Mei, Yue Hu, Yaoguang Rong,* and Hongwei Han. Post-Treatment of Mesoporous Scaffolds for Enhanced Photovoltage of Triple-Mesoscopic Perovskite Solar Cells. Sol. RRL 2020, 4, 2000185. 20200614.

  11. Jiawen Wu, Weihua Zhang, Qifei Wang, Shuang Liu, Jiankang Du, Anyi Mei, Yaoguang Rong, Yue Hu,* and Hongwei Han. A favored crystal orientation for efficient printable mesoscopic perovskite solar cells. J. Mater. Chem. A 2020, 8,11148. 20200518.

  12. Mi Xu, Wenxian Ji, Yusong Sheng, Yiwei Wu, Hao Cheng, Jun Meng, Zhibing Yan, Jianfeng Xu,* Anyi Mei, Yue Hu, Yaoguang Rong,* Hongwei Han. Efficient triple-mesoscopic perovskite solar mini-modules fabricated with slot-die coating. Nano Energy 2020, 74, 104842. 20200428.

  13. Shicong Zhang, Luze Shen, Ting Ye, Kangyi Kong, Haonan Ye, Haoran Ding, Yue Hu,* and Jianli Hua*. Noble-Metal-Free Perovskite–BiVO4 Tandem Device with Simple Preparation Method for Unassisted Solar Water Splitting. Energy Fuels 2020, 34, 5016-5023. 20200311.

  14. Li Hong, Jovana V. Milic´, Paramvir Ahlawat, Marko Mladenovic´, Dominik J. Kubicki, Farzaneh Jahanabkhshi, Dan Ren, Mar&a C. G8lvez-Rueda, Marco A. Ruiz-Preciado, Amita Ummadisingu, Yuhang Liu, Chengbo Tian, Linfeng Pan, Shaik M. Zakeeruddin, Anders Hagfeldt, Ferdinand C. Grozema, Ursula Rothlisberger, Lyndon Emsley, Hongwei Han,* and Michael Graetzel*. Guanine-Stabilized Formamidinium Lead Iodide Perovskites. Angew. Chem. Int. Ed. 2020, 59, 4691-4697. 20200203

  15. Qifei Wang, Wenhao Zhang, Zhihui Zhang, Shuang Liu, Jiawen Wu, Yanjun Guan, Anyi Mei, Yaoguang Rong, Yue Hu,* and Hongwei Han. Crystallization Control of Ternary-Cation Perovskite Absorber in Triple-Mesoscopic Layer for Efficient Solar Cells. Adv. Energy Mater. 2020, 10, 1903092. 20191210

  16. Yanjun Guan, Mi Xu, Wenhao Zhang, Da Li, Xiaomeng Hou, Li Hong, Qifei Wang, Zhihui Zhang, Anyi Mei, Min Chen, Yuanyuan Zhou, Nitin P. Padture, Yue Hu,* Yaoguang Rong,* and Hongwei Han. In situ transfer of CH3NH3PbI3 single crystals in mesoporous scaffolds for efficient perovskite solar cells. Chem. Sci. 2020, 11, 474-481 20191120

  17. 李达,管焱俊,李代宇,褚衍盟,邹阳,梅安意,荣耀光 ,胡玥*,韩宏伟*超越传统光伏:弱光环境下可印刷介观钙钛矿太阳能电池光电特性. 科学通报,20200804.

  18. Shuangquan Jiang, Yusong Sheng, Yue Hu, Yaoguang Rong, Anyi Mei,* and Hongwei Han. Influence of precursor concentration on printable mesoscopic perovskite solar cellsFrontiers of Optoelectronics 2020, 13, 256-264. 20200610.


  1. Hu,Y., Chu, Y., Wang, Q., Zhang, Z., Ming, Y., Mei, A., ... & Han, H. (2019).Standardizing Perovskite Solar Modules beyond Cells. Joule.

  2. Wu,J., Zhang, Z., Tong, C., Li, D., Mei, A., Rong, Y., ... & Hu, Y. (2019).Two-stage melt processing of phase-pure selenium for printable triplemesoscopic solar cells. ACS applied materials & interfaces.

  3. Ming,Y., Xu, M., Liu, S., Li, D., Wang, Q., Hou, X., ... & Han, H. (2019).Ethanol stabilized precursors for highly reproducible printable mesoscopicperovskite solar cells. Journal of Power Sources, 424, 261-267.

  4. Yu,D., Hu, Y., Shi, J., Tang, H., Zhang, W., Meng, Q., ... & Tian, H. (2019).Stability improvement under high efficiency—next stage development ofperovskite solar cells. Science China Chemistry, 62(6), 684-707.

  5. Cheng,Z., Mei, A., Cheng, Z., Gao, D., Li, S., Liu, S., ... & Han, H. (2019,May). Bridge from Visible Light Communication to Telecommunication viaPerovskite-Silicon Photonics. In CLEO: Applications and Technology(pp. JTh2A-56). Optical Society of America.

  6. Hou,X., Xu, M., Tong, C., Ji, W., Fu, Z., Wan, Z., ... & Han, H. (2019). Highperformance printable perovskite solar cells based on Cs0. 1FA0. 9PbI3 inmesoporous scaffolds. Journal of Power Sources, 415, 105-111.

  7. Liu,T., Xiong, Y., Mei, A., Hu, Y., Rong, Y., Xu, M., ... & Long, X. (2019).Spacer layer design for efficient fully printable mesoscopic perovskite solarcells. RSC Advances, 9(51), 29840-29846.

  8. Tong,C., Ji, W., Li, D., Mei, A., Hu, Y., Rong, Y., & Han, H. (2019). Modelingthe edge effect for measuring the performance of mesoscopic solar cells withshading masks. Journal of Materials Chemistry A, 7(18), 10942-10948.

  9. Wang,S., Jiang, P., Shen, W., Mei, A., Xiong, S., Jiang, X., ... & Han, H.(2019). A low-temperature carbon electrode with good perovskite compatibilityand high flexibility in carbon based perovskite solar cells. Chemicalcommunications, 55(19), 2765-2768.

  1. Rong,Y., Hu, Y., Mei, A., Tan, H., Saidaminov, M. I., Seok, S. I., ... & Han, H.(2018). Challenges for commercializing perovskite solar cells. Science,361(6408), eaat8235.

  2. Hu,Y., Zhang, Z., Mei, A., Jiang, Y., Hou, X., Wang, Q., ... & Han, H. (2018).Improved performance of printable perovskite solar cells with bifunctionalconjugated organic molecule. Advanced Materials, 30(11), 1705786.

  3. Jiang,P., Jones, T. W., Duffy, N. W., Anderson, K. F., Bennett, R., Grigore, M., ...& Hong, L. (2018). Fully printable perovskite solar cells withhighly-conductive, low-temperature, perovskite-compatible carbon electrode. Carbon,129, 830-836.

  4. Jiang,X., Xiong, Y., Zhang, Z., Rong, Y., Mei, A., Tian, C., ... & Liu, Q.(2018). Efficient hole-conductor-free printable mesoscopic perovskite solarcells based on SnO2 compact layer. Electrochimica Acta, 263,134-139.

  5. Sheng,Y., Mei, A., Liu, S., Duan, M., Jiang, P., Tian, C., ... & Hu, Y. (2018).Mixed (5-AVA) x MA 1− x PbI 3− y (BF 4) y perovskites enhance the photovoltaicperformance of hole-conductor-free printable mesoscopic solar cells.Journal of Materials Chemistry A, 6(5), 2360-2364.

  6. Xiong,Y., Liu, Y., Lan, K., Mei, A., Sheng, Y., Zhao, D., & Han, H. (2018). Fullyprintable hole-conductor-free mesoscopic perovskite solar cells based onmesoporous anatase single crystals. New Journal of Chemistry,42(4), 2669-2674.

  7. Xu,L., Xiong, Y., Mei, A., Hu, Y., Rong, Y., Zhou, Y., ... & Han, H. (2018).Efficient Perovskite Photovoltaic‐Thermoelectric Hybrid Device. AdvancedEnergy Materials, 8(13), 1702937.

  8. Guan,Y., Mei, A., Rong, Y., Duan, M., Hou, X., Hu, Y., & Han, H. (2018).Fullerene derivative as an additive for highly efficient printable mesoscopicperovskite solar cells. Organic Electronics, 62, 653-659.

  9. Li,T., Wang, Q., Nichol, G. S., Morrison, C. A., Han, H., Hu, Y., & Robertson,N. (2018). Extending lead-free hybrid photovoltaic materials to new structures:thiazolium, aminothiazolium and imidazolium iodobismuthates. DaltonTransactions, 47(20), 7050-7058.

  10. Wang,Q., Liu, S., Ming, Y., Guan, Y., Li, D., Zhang, C., ... & Han, H. (2018).Improvements in printable mesoscopic perovskite solar cells via thinner spacerlayers. Sustainable Energy & Fuels, 2(11), 2412-2418.

  11. Duan,M., Hu, Y., Mei, A., Rong, Y., & Han, H. (2018). Printable carbon-basedhole-conductor-free mesoscopic perovskite solar cells: from lab to market. Materialstoday energy, 7, 221-231.

  12. Tian,C., Zhang, S., Mei, A., Rong, Y., Hu, Y., Du, K., ... & Han, H. (2018). AMultifunctional Bis-Adduct Fullerene for Efficient Printable MesoscopicPerovskite Solar Cells. ACS applied materials & interfaces,10(13), 10835-10841.

  13. Xu,L., Xiong, Y., Mei, A., Hu, Y., Rong, Y., Zhou, Y., ... & Han, H. (2018).Efficient Perovskite Photovoltaic‐Thermoelectric Hybrid Device. AdvancedEnergy Materials, 8(13), 1702937.

  14. Xiong,Y., Zhu, X., Mei, A., Qin, F., Liu, S., Zhang, S., ... & Han, H. (2018).Bifunctional Al2O3 Interlayer Leads to Enhanced Open‐Circuit Voltage for Hole‐Conductor‐FreeCarbon‐Based Perovskite Solar Cells. Solar RRL, 2(5), 1800002.

  15. Xu,C., Zhang, Z., Hu, Y., Sheng, Y., Jiang, P., Han, H., & Zhang, J. (2018).Printed hole-conductor-free mesoscopic perovskite solar cells with excellentlong-term stability using PEAI as an additive. Journal of energychemistry, 27(3), 764-768.

  16. Rong,Y., Ming, Y., Ji, W., Li, D., Mei, A., Hu, Y., & Han, H. (2018). Towardindustrial-scale production of perovskite solar cells: screen printing,slot-die coating, and emerging techniques. The journal of physical chemistryletters, 9(10), 2707-2713.

  17. Jiang,P., Xiong, Y., Xu, M., Mei, A., Sheng, Y., Hong, L., ... & Hu, Y. (2018).The Influence of the Work Function of Hybrid Carbon Electrodes on PrintableMesoscopic Perovskite Solar Cells. The Journal of Physical Chemistry C,122(29), 16481-16487.

  18. Tian,C., Zhang, S., Li, S., Mei, A., Li, D., Liu, S., ... & Han, H. (2018). AC60 Modification Layer Using a Scalable Deposition Technology for EfficientPrintable Mesoscopic Perovskite Solar Cells. Solar RRL, 2(10),1800174.

  19. Tian,C., Mei, A., Zhang, S., Tian, H., Liu, S., Qin, F., ... & Xie, S. (2018).Oxygen management in carbon electrode for high-performance printable perovskitesolar cells. Nano Energy, 53, 160-167.

  20. Chen,M., Ju, M. G., Hu, M., Dai, Z., Hu, Y., Rong, Y., ... & Padture, N. P.(2018). Lead-Free Dion–Jacobson Tin Halide Perovskites for Photovoltaics.ACS Energy Letters, 4(1), 276-277.

  21. Li,D., Tong, C., Ji, W., Fu, Z., Wan, Z., Huang, Q., ... & Han, H. (2018).Vanadium oxide post-treatment for enhanced photovoltage of printable perovskitesolar cells. ACS Sustainable Chemistry & Engineering, 7(2),2619-2625.

  1. Duan,M., Rong, Y., Mei, A., Hu, Y., Sheng, Y., Guan, Y., & Han, H. (2017).Efficient hole-conductor-free, fully printable mesoscopic perovskite solarcells with carbon electrode based on ultrathin graphite. Carbon,120, 71-76.

  2. Duan,M., Tian, C., Hu, Y., Mei, A., Rong, Y., Xiong, Y., ... & Zhu, X. (2017).Boron-doped graphite for high work function carbon electrode in printablehole-conductor-free mesoscopic perovskite solar cells. ACS appliedmaterials & interfaces, 9(37), 31721-31727.

  3. Hong,L., Hu, Y., Mei, A., Sheng, Y., Jiang, P., Tian, C., ... & Han, H. (2017).Improvement and Regeneration of Perovskite Solar Cells via Methylamine GasPost‐Treatment. Advanced Functional Materials, 27(43), 1703060.

  4. Hou,X., Hu, Y., Liu, H., Mei, A., Li, X., Duan, M., ... & Han, H. (2017).Effect of guanidinium on mesoscopic perovskite solar cells. Journal ofMaterials Chemistry A, 5(1), 73-78.

  5. Hu,Y., Si, S., Mei, A., Rong, Y., Liu, H., Li, X., & Han, H. (2017). Stablelarge‐area (10× 10 cm2) printable mesoscopic perovskite module exceeding 10%efficiency. Solar Rrl, 1(2), 1600019.

  6. Jiang,F., Yang, D., Jiang, Y., Liu, T., Zhao, X., Ming, Y., ... & Zhang, L.(2018). Chlorine-incorporation-induced formation of the layered phase forantimony-based lead-free perovskite solar cells. Journal of the AmericanChemical Society, 140(3), 1019-1027.

  7. Li,T., Hu, Y., Morrison, C. A., Wu, W., Han, H., & Robertson, N. (2017).Lead-free pseudo-three-dimensional organic–inorganic iodobismuthates forphotovoltaic applications. Sustainable Energy & Fuels, 1(2),308-316.

  8. Li,X., Zhong, X., Hu, Y., Li, B., Sheng, Y., Zhang, Y., ... & Wang, J. (2017).Organic–inorganic copper (II)-based material: a low-toxic, highly stable lightabsorber for photovoltaic application. The journal of physical chemistryletters, 8(8), 1804-1809.

  9. Liu,T., Rong, Y., Xiong, Y., Mei, A., Hu, Y., Sheng, Y., ... & Hong, L. (2017).Spacer improvement for efficient and fully printable mesoscopic perovskitesolar cells. RSC Advances, 7(17), 10118-10123.

  10. Liu,T., Xiong, Y., Rong, Y., & Han, H. (2017). Application of highly reflectivespacer layer in monolithic dye-sensitized solar cells. Chinese ScienceBulletin, 62(14), 1492-1499.

  11. Ma,J., Yang, G., Qin, M., Zheng, X., Lei, H., Chen, C., ... & Fang, G. (2017).MgO nanoparticle modified anode for highly efficient SnO2‐based planarperovskite solar cells. Advanced Science, 4(9), 1700031.

  12. Rong,Y., Hou, X., Hu, Y., Mei, A., Liu, L., Wang, P., & Han, H. (2017). Synergyof ammonium chloride and moisture on perovskite crystallization for efficientprintable mesoscopic solar cells. Nature communications, 8,14555.

  13. Rong,Y., Hu, Y., Ravishankar, S., Liu, H., Hou, X., Sheng, Y., ... & Bisquert,J. (2017). Tunable hysteresis effect for perovskite solar cells. Energy& Environmental Science, 10(11), 2383-2391.

  14. Tian,C., Kochiss, K., Castro, E., Betancourt-Solis, G., Han, H., & Echegoyen, L.(2017). A dimeric fullerene derivative for efficient inverted planar perovskitesolar cells with improved stability. Journal of Materials Chemistry A,5(16), 7326-7332.

  15. Xu,L., Wan, F., Rong, Y., Chen, H., He, S., Xu, X., ... & Gao, Y. (2017).Stable monolithic hole-conductor-free perovskite solar cells using TiO2nanoparticle binding carbon films. Organic Electronics, 45,131-138.

  16. Zheng,L., Cao, Q., Wang, J., Chai, Z., Cai, G., Ma, Z., ... & Chen, H. (2017).Novel D–A− π–A-Type Organic Dyes Containing a LadderlikeDithienocyclopentacarbazole Donor for Effective Dye-Sensitized Solar Cells. ACSOmega, 2(10), 7048-7056.

  1. Chai,Z., Wan, S., Zhong, C., Xu, T., Fang, M., Wang, J., ... & Peng, Q. (2016).Conjugated or broken: the introduction of isolation spacer ahead of theanchoring moiety and the improved device performance. ACS appliedmaterials & interfaces, 8(42), 28652-28662.

  2. Chen,J., Rong, Y., Mei, A., Xiong, Y., Liu, T., Sheng, Y., ... & Hou, X. (2016).Hole‐Conductor‐Free Fully Printable Mesoscopic Solar Cell with Mixed‐AnionPerovskite CH3NH3PbI (3− x)(BF4) x. Advanced Energy Materials,6(5), 1502009.

  3. Chen,J., Xiong, Y., Rong, Y., Mei, A., Sheng, Y., Jiang, P., ... & Han, H.(2016). Solvent effect on the hole-conductor-free fully printable perovskitesolar cells. Nano Energy, 27, 130-137.

  4. Jiang,F., Rong, Y., Liu, H., Liu, T., Mao, L., Meng, W., ... & Tong, J. (2016).Synergistic Effect of PbI2 Passivation and Chlorine Inclusion Yielding HighOpen‐Circuit Voltage Exceeding 1.15 V in Both Mesoscopic and Inverted PlanarCH3NH3PbI3 (Cl)‐Based Perovskite Solar Cells. Advanced FunctionalMaterials, 26(44), 8119-8127.

  5. Jiang,X., Xiong, Y., Mei, A., Rong, Y., Hu, Y., Hong, L., ... & Han, H. (2016).Efficient compact-layer-free, hole-conductor-free, fully printable mesoscopicperovskite solar cell. The journal of physical chemistry letters,7(20), 4142-4146.

  6. Li,H., Fang, M., Tang, R., Hou, Y., Liao, Q., Mei, A., ... & Li, Z. (2016).The introduction of conjugated isolation groups into the common acceptorcyanoacrylic acid: an efficient strategy to suppress the charge recombinationin dye sensitized solar cells and the dramatically improved efficiency from5.89% to 9.44%. Journal of Materials Chemistry A, 4(42),16403-16409.

  7. Li,H., Fang, M., Xu, T., Hou, Y., Tang, R., Chen, J., ... & Li, Z. (2016). Newanthracene-based organic dyes: the flexible position of the anthracene moietybearing isolation groups in the conjugated bridge and the adjustable cellperformance. Organic Chemistry Frontiers, 3(2), 233-242.

  8. Sheng,Y., Hu, Y., Mei, A., Jiang, P., Hou, X., Duan, M., ... & Han, H. (2016).Enhanced electronic properties in CH 3 NH 3 PbI 3 via LiCl mixing forhole-conductor-free printable perovskite solar cells. Journal ofMaterials Chemistry A, 4(42), 16731-16736.

  9. Shi,J., Chai, Z., Tang, R., Li, H., Han, H., Peng, T., ... & Li, Z. (2016).Effect of electron-withdrawing groups in conjugated bridges: molecularengineering of organic sensitizers for dye-sensitized solar cells. Frontiersof Optoelectronics, 9(1), 60-70.

  1. Bertoluzzi,L., Sanchez, R. S., Liu, L., Lee, J. W., Mas-Marza, E., Han, H., ... &Bisquert, J. (2015). Cooperative kinetics of depolarization in CH 3 NH 3 PbI 3perovskite solar cells. Energy & Environmental Science, 8(3),910-915.

  2. Cao,W., Fang, M., Chai, Z., Xu, H., Duan, T., Li, Z., ... & Han, H. (2015). NewD–π–A organic dyes containing a tert-butyl-capped indolo [3, 2, 1-jk] carbazoledonor with bithiophene unit as π-linker for dye-sensitized solar cells. RSCAdvances, 5(42), 32967-32975.

  3. Chai,Z., Wu, M., Fang, M., Wan, S., Xu, T., Tang, R., ... & Li, Z. (2015).Similar or Totally Different: the Adjustment of the Twist Conformation ThroughMinor Structural Modification, and Dramatically Improved Performance forDye‐Sensitized Solar Cell. Advanced Energy Materials, 5(18),1500846.

  4. Chen,J., Ko, S., Liu, L., Sheng, Y., Han, H., & Li, X. (2015). The effect ofporphyrins suspended with different electronegative moieties on thephotovoltaic performance of monolithic porphyrin-sensitized solar cells with carboncounter electrodes. New Journal of Chemistry, 39(4), 2889-2900.

  5. Chen,J., Ko, S., Liu, L., Sheng, Y., Han, H., & Li, X. (2015). The effect ofdifferent alkyl chains on the photovoltaic performance of D–π–Aporphyrin-sensitized solar cells. New Journal of Chemistry,39(5), 3736-3746.

  6. Chen,J., Sheng, Y., Ko, S., Liu, L., Han, H., & Li, X. (2015). Push–pullporphyrins with different anchoring group orientations for fully printablemonolithic dye-sensitized solar cells with mesoscopic carbon counter electrodes.New Journal of Chemistry, 39(7), 5231-5239.

  7. Li,X., Dar, M. I., Yi, C., Luo, J., Tschumi, M., Zakeeruddin, S. M., ... &Grätzel, M. (2015). Improved performance and stability of perovskite solarcells by crystal crosslinking with alkylphosphonic acid ω-ammonium chlorides. Naturechemistry, 7(9), 703.

  8. Li,X., Tschumi, M., Han, H., Babkair, S. S., Alzubaydi, R. A., Ansari, A. A., ...& Grätzel, M. (2015). Outdoor performance and stability under elevatedtemperatures and long‐term light soaking of triple‐layer mesoporous perovskitephotovoltaics. Energy Technology, 3(6), 551-555.

  9. Liu,L., Mei, A., Liu, T., Jiang, P., Sheng, Y., Zhang, L., & Han, H. (2015).Fully printable mesoscopic perovskite solar cells with organic silaneself-assembled monolayer. Journal of the American Chemical Society,137(5), 1790-1793.

  10. Liu,T., Kim, D., Han, H., bin Mohd Yusoff, A. R., & Jang, J. (2015).Fine-tuning optical and electronic properties of graphene oxide for highlyefficient perovskite solar cells. Nanoscale, 7(24), 10708-10718.

  11. Liu,T., Liu, L., Hu, M., Yang, Y., Zhang, L., Mei, A., & Han, H. (2015).Critical parameters in TiO2/ZrO2/Carbon-based mesoscopic perovskite solar cell.Journal of Power Sources, 293, 533-538.

  12. Rong,Y., Ku, Z., Li, X., & Han, H. (2015). Transparent bifacial dye-sensitizedsolar cells based on an electrochemically polymerized organic counter electrodeand an iodine-free polymer gel electrolyte. Journal of Materials Science,50(10), 3803-3811.

  13. Rong,Y., Liu, L., Mei, A., Li, X., & Han, H. (2015). Beyond efficiency: thechallenge of stability in mesoscopic perovskite solar cells. AdvancedEnergy Materials, 5(20), 1501066.

  14. Yang,Y., Ri, K., Mei, A., Liu, L., Hu, M., Liu, T., ... & Han, H. (2015). Thesize effect of TiO 2 nanoparticles on a printable mesoscopic perovskite solarcell. Journal of Materials Chemistry A, 3(17), 9103-9107.

  15. Rong,Y., Mei, A., Liu, L., Li, X., & Han, H. (2015). All-solid-state mesoscopicsolar cells: from dye-sensitized to perovskite. Acta Chimica Sinica,73(3), 237-251.

  16. Zhang,L., Liu, T., Liu, L., Hu, M., Yang, Y., Mei, A., & Han, H. (2015). Theeffect of carbon counter electrodes on fully printable mesoscopic perovskite solarcells. Journal of Materials Chemistry A, 3(17), 9165-9170.

  1. Mei,A., Li, X., Liu, L., Ku, Z., Liu, T., Rong, Y., ... & Grätzel, M. (2014). Ahole-conductor–free, fully printable mesoscopic perovskite solar cell with highstability. Science, 345(6194), 295-298.

  2. Yin,Y., Wu, X., Han, H. W., Sha, S., Wang, S. F., Qiao, F., ... & Zhu, H. L.(2014). Discovery and synthesis of a novel series of potent, selectiveinhibitors of the PI3Kα: 2-alkyl-chromeno [4, 3-c] pyrazol-4 (2 H)-one derivatives.Organic & biomolecular chemistry, 12(45), 9157-9165.

  3. Yang,Y., Ri, K., Rong, Y., Liu, L., Liu, T., Hu, M., ... & Han, H. (2014). Fullyprintable transparent monolithic solid-state dye-sensitized solar cell withmesoscopic indium tin oxide counter electrode. Physical ChemistryChemical Physics, 16(33), 17743-17747.

  4. Xu,M., Rong, Y., Ku, Z., Mei, A., Liu, T., Zhang, L., ... & Han, H. (2014).Highly ordered mesoporous carbon for mesoscopic CH 3 NH 3 PbI 3/TiO 2heterojunction solar cell. Journal of Materials Chemistry A,2(23), 8607-8611.

  5. Xu,M., & Han, H. W. (2014). Influence of scattering layer on the performanceof solid-state dye sensitized solar cell. In Applied Mechanics andMaterials (Vol. 521, pp. 28-32). Trans Tech Publications.

  6. Shi,Z., Li, Y., Chen, X., Han, H., & Yang, G. (2014). Double network bacterialcellulose hydrogel to build a biology–device interface. Nanoscale,6(2), 970-977.

  7. Rong,Y., Ku, Z., Xu, M., Liu, L., Hu, M., Yang, Y., ... & Han, H. (2014).Efficient monolithic quasi-solid-state dye-sensitized solar cells based on poly(ionic liquids) and carbon counter electrodes. RSC Advances,4(18), 9271-9274.

  8. Rong,Y., Ku, Z., Mei, A., Liu, T., Xu, M., Ko, S., ... & Han, H. (2014).Hole-conductor-free mesoscopic TiO2/CH3NH3PbI3 heterojunction solar cells basedon anatase nanosheets and carbon counter electrodes. The journal ofphysical chemistry letters, 5(12), 2160-2164.

  9. Liu,L., Chen, J., Ku, Z., Li, X., & Han, H. (2014). Unsymmetrical squarainesensitizers containing auxiliary arylamine donor for NIR-harvesting ondye-sensitized solar cell. Dyes and Pigments, 106, 128-135.

  10. Li,H., Yang, Y., Hou, Y., Tang, R., Duan, T., Chen, J., ... & Li, Q. (2014).Organic sensitizers featuring 9, 10-diaryl-substituted anthracene unit. ACSSustainable Chemistry & Engineering, 2(7), 1776-1784.

  11. Li,H., Tang, R., Hou, Y., Yang, Y., Chen, J., Liu, L., ... & Li, Z. (2014).Diphenyldibenzofulvene‐Based Sensitizers for Efficient Dye‐Sensitized SolarCells: The Tuned Absorption Properties and Partially Suppressed Aggregation. AsianJournal of Organic Chemistry, 3(2), 176-184.

  12. Hu,M., Sun, J., Rong, Y., Yang, Y., Liu, L., Li, X., ... & Han, H. (2014).Enhancement of monobasal solid-state dye-sensitized solar cells with polymerelectrolyte assembling imidazolium iodide-functionalized silica nanoparticles. Journalof power sources, 248, 283-288.

  13. Hu,M., Liu, L., Mei, A., Yang, Y., Liu, T., & Han, H. (2014). Efficienthole-conductor-free, fully printable mesoscopic perovskite solar cells with abroad light harvester NH 2 CH [double bond, length as m-dash] NH 2 PbI 3. Journalof Materials Chemistry A, 2(40), 17115-17121.

  1. Liu,L., Li, X., Chen, J., Rong, Y., Ku, Z., & Han, H. (2013). Improvement ofThiolate/Disulfide Mediated Dye-Sensitized Solar Cells through SupramolecularLithium Cation Assembling of Crown Ether. Scientific reports, 3,2413.

  2. Liu,G., Li, X., Wang, H., Rong, Y., Ku, Z., Xu, M., ... & Han, H. (2013). Aclass of carbon supported transition metal–nitrogen complex catalysts fordye-sensitized solar cells. Journal of Materials Chemistry A,1(4), 1475-1480.

  3. Liu,G., Li, X., Wang, H., Rong, Y., Ku, Z., Xu, M., ... & Han, H. (2013). Anefficient thiolate/disulfide redox couple based dye-sensitized solar cell witha graphene modified mesoscopic carbon counter electrode. Carbon,53, 11-18.

  4. Li,X., Liu, L., Liu, G., Rong, Y., Yang, Y., Wang, H., ... & Han, H. (2013).Efficient Dye‐Sensitized Solar Cells with Potential‐Tunable Organic SulfideMediators and Graphene‐Modified Carbon Counter Electrodes. Advanced FunctionalMaterials, 23(26), 3344-3352.

  5. Li,H., Yang, L., Tang, R., Hou, Y., Yang, Y., Wang, H., ... & Li, Z. (2013).Organic dyes incorporating N-functionalized pyrrole as conjugated bridge fordye-sensitized solar cells: convenient synthesis, additional withdrawing groupon the π-bridge and the suppressed aggregation. Dyes and Pigments,99(3), 863-870.

  6. Li,H., Hou, Y., Yang, Y., Tang, R., Chen, J., Wang, H., ... & Li, Z. (2013).Attempt to improve the performance of pyrrole-containing dyes in dye sensitizedsolar cells by adjusting isolation groups. ACS applied materials &interfaces, 5(23), 12469-12477.

  7. Ku,Z., Rong, Y., Xu, M., Liu, T., & Han, H. (2013). Full printable processedmesoscopic CH 3 NH 3 PbI 3/TiO 2 heterojunction solar cells with carbon counterelectrode. Scientific reports, 3, 3132.

  8. Ku,Z., Rong, Y., & Han, H. (2013, October). Transparent bifacialdye-sensitized solar cells based on organic counter electrodes and iodine-freeelectrolyte. In Organic Photovoltaics XIV (Vol. 8830, p. 88301T).International Society for Optics and Photonics.

  9. Ku,Z., Li, X., Liu, G., Wang, H., Rong, Y., Xu, M., ... & Han, H. (2013).Transparent NiS counter electrodes for thiolate/disulfide mediateddye-sensitized solar cells. Journal of Materials Chemistry A,1(2), 237-240.

  10. Rong,Y., & Han, H. (2013). Monolithic quasi-solid-state dye-sensitized solarcells based on graphene-modified mesoscopic carbon-counter electrodes. Journalof Nanophotonics, 7(1), 073090.

  11. Rong,Y., Li, X., Liu, G., Wang, H., Ku, Z., Xu, M., ... & Liu, T. (2013).Monolithic quasi-solid-state dye-sensitized solar cells based on iodine-freepolymer gel electrolyte. Journal of Power Sources, 235, 243-250.

  12. Rong,Y., Liu, G., Wang, H., Li, X., & Han, H. (2013). Monolithic all-solid-statedye-sensitized solar cells. Frontiers of Optoelectronics, 6(4),359-372.

  13. Shi,J., Chai, Z., Su, J., Chen, J., Tang, R., Fan, K., ... & Li, Q. (2013). Newsensitizers bearing quinoxaline moieties as an auxiliary acceptor fordye-sensitized solar cells. Dyes and Pigments, 98(3), 405-413.

  14. Wang,H., Xiang, P., Xu, M., Liu, G., Li, X., Ku, Z., ... & Han, H. (2013). Highefficiency monobasal solid-state dye-sensitized solar cell with mesoporous TiO2 beads as photoanode. Frontiers of Optoelectronics, 6(4),413-417.

  15. Wang,H., Xu, M., Liu, G., Li, X., Xiang, P., Ku, Z., ... & Han, H. (2013).Effect of photo-doping on performance for solid-state dye-sensitized solar cellbased on 2, 2′ 7, 7′-tetrakis-(N, N-di-p-methoxyphenyl-amine)-9,9′-spirobifluorene and carbon counter electrode. Electrochimica Acta,99, 238-241.

  16. Xu,M., Liu, G., Li, X., Wang, H., Rong, Y., Ku, Z., ... & Chen, J. (2013).Efficient monolithic solid-state dye-sensitized solar cell with a low-costmesoscopic carbon based screen printable counter electrode. OrganicElectronics, 14(2), 628-634.

  17. Xu,M., Rong, Y., Ku, Z., Mei, A., Li, X., & Han, H. (2013). Improvement inSolid-State Dye Sensitized Solar Cells by p-Type Doping with Lewis Acid SnCl4. TheJournal of Physical Chemistry C, 117(44), 22492-22496.

  1. Li, X., Ku, Z., Rong, Y., Liu, G., Liu, L., Liu, T.,... & Xiang, P. (2012). Design of an organic redox mediator andoptimization of an organic counter electrode for efficient transparent bifacialdye-sensitized solar cells. Physical Chemistry Chemical Physics,14(41), 14383-14390.

  2. Liu, G., Wang, H., Li, X., Rong, Y., Ku, Z., Xu, M.,... & Shu, T. (2012). A mesoscopic platinized graphite/carbon blackcounter electrode for a highly efficient monolithic dye-sensitized solar cell.Electrochimica Acta, 69, 334-339.

  3. Rong, Y., Li, X., Ku, Z., Liu, G., Wang, H., Xu, M.,... & Shu, T. (2012). Monolithic all-solid-state dye-sensitized solarmodule based on mesoscopic carbon counter electrodes. Solar EnergyMaterials and Solar Cells, 105, 148-152.

  4. Shi, J., Chen, J., Chai, Z., Wang, H., Tang, R., Fan,K., ... & Li, Q. (2012). High performance organic sensitizers based on 11,12-bis (hexyloxy) dibenzo [a, c] phenazine for dye-sensitized solar cells. Journalof Materials Chemistry, 22(36), 18830-18838.

  5. Shu,T., Xiang, P., Zhou, Z. M., Wang, H., Liu, G. H., Han, H. W., & Zhao, Y. D.(2012). Mesoscopic nitrogen-doped TiO2 spheres for quantum dot-sensitized solarcells. Electrochimica Acta, 68, 166-171.

  6. Shu,T., Zhou, Z., Wang, H., Liu, G., Xiang, P., Rong, Y., ... & Zhao, Y.(2012). Efficient quantum dot-sensitized solar cell with tunable energy bandCdSe x S (1− x) quantum dots. Journal of Materials Chemistry,22(21), 10525-10529.

1.    TingShu,Zi-Ming Zhou, Heng Wang, Guang-Hui Liu, Peng Xiang, Yao-Guang Rong,Yuan-DiZhao, Hong-Wei Han, Efficient CdPbS quantum dots-sensitized TiO2photoelectrodesfor solar cell applications, Journal of NanoscienceandNanotechnology2011, 11, 9645-9649.


2.    HengWang,Guanghui Liu, Xiong Li, Peng Xiang, Zhiliang Ku, Yaoguang Rong, Mi Xu,LinfengLiu, Min Hu, Ying Yang, Highly efficient poly (3-hexylthiophene)basedmonolithic dye-sensitized solar cells with carbon counter electrode, Energy&Environmental Science2011,4, 2025-2029.


3.    ZhuoranWang,Heng Wang, Bin Liu, Wenzhe Qiu, Jun Zhang, Sihan Ran, Hongtao Huang, JingXu,Hongwei Han, Di Chen, Transferable and flexible nanorod-assembled TiO2clothsfor dye-sensitized solar cells, photodetectors, and photocatalysts, AcsNano2011, 5,8412-8419.


4.    PengXiang,Xiong Li, Heng Wang, Guanghui Liu, Ting Shu, Ziming Zhou, Zhiliang Ku,YaoguangRong, Mi Xu, Linfeng Liu, Mesoporous nitrogen-doped TiO 2 sphereapplied forquasi-solid-state dye-sensitized solar cell, Nanoscale ResearchLetters2011, 6, 606.


5.    XuXiao,Longyan Yuan, Junwen Zhong, Tianpeng Ding, Yu Liu, Zhixiang Cai, YaoguangRong,Hongwei Han, Jun Zhou, Zhong Lin Wang, High‐StrainSensors Based on ZnO Nanowire/Polystyrene Hybridized FlexibleFilms,AdvancedMaterials2011,23, 5440-5444.