研究業績

Publication 2020.04-2021.03

  1. Energy- and cost-efficient NaCl-assisted synthesis of MAX-phase Ti3AlC2 at lower temperature : Liu A., Yang Q., Ren X., Meng F., Gao L., Gao M., Yang Y., Ma T., Wu G : Ceramics International, 46(5), 6934 - 6939, 2020

  2. Facile synthesis of ZnS decorated N, S co-doped carbon polyhedron as high efficiency oxygen reduction reaction catalyst for Zn-air battery : Li Y., Wang C., Cui M., Chen S., Gao L., Liu A., Ma T. : Applied Surface Science, 509(15), 145367, 2020

  3. Several economical and eco-friendly bio-carbon electrodes for highly efficient perovskite solar cells : Gao L., Zhou Y., Meng F., Li Y., Liu A., Li Y., Zhang C., Fan M., Wei G., Ma T. : Carbon, 162, 267 - 272, 2020

  4. Hollow-structure engineering of a silicon–carbon anode for ultra-stable lithium-ion batteries : Liu H., Chen Y., Jiang B., Zhao Y., Guo X., Ma T. : Dalton Trans., 49, 5669-5676, 2020

  5. A two-dimensional Ru@MXene catalyst for highly selective ambient electrocatalytic nitrogen reduction : Liu A., Gao M., Ren X., Meng F., Yang Y., Yang Q., Guan W., Gao L., Lianga X., Ma T. : Nanoscale, 12, 10933 - 10938, 2020

  6. The reaction pathway of the CO2RR to low-carbon alcohols: a theoretical study : Liu A., Guan W., Cao Q., Ren X., Gao L., Zhao Q., Ma T. : New J. Chem., 44, 8971--8976, 2020

  7. Current progress in electrocatalytic carbon dioxide reduction to fuels on heterogeneous catalysts : Liu A., Gao M., Ren X., Meng F., Yang Y., Gao L., Yanga Q., Ma T. : J. Mater. Chem. A, 8, 3541–3562, 2020

  8. Recent Progress in MXene-Based Materials: Potential High-Performance Electrocatalysts : Liu A., Liang X., Ren X., Guan W., Gao M., Yang Y., Yang Q., Gao L., Li Y., Ma T. : Adv. Funct. Mater., 2003437, 2020

  9. Current Progress of Electrocatalysts for Ammonia Synthesis Through Electrochemical Nitrogen Reduction Under Ambient Conditions : Liu A., Yang Y., Ren X., Zhao Q., Gao M., Guan W., Meng F., Gao L., Yang Q., Liang X., Ma T. : ChemSusChem, 13, 1 – 24, 2020

Publication 2019.04-2020.03

  1. Carbon Counter Electrodes in Dye‐Sensitized and Perovskite Solar Cells : Wu M., Sun M., Zhou H., Ma J., Ma T. : ADVANCED FUNCTIONAL MATERIALS, 30(7), 1906451, 2020

  2. Co loaded on graphene with interfacial structure as high performance catalyst for 4e− ORR: a DFT study : Liu A., Li C., Ren X., Gao L., Ma T. : Ionics, 2020

  3. Suppression of Iodide Ion Migration via Sb2S3 Interfacial Modification for Stable Inorganic Perovskite Solar Cells : Xu Z., Wang L., Han Q., Kamata Y., Ma T. : ACS Appl.Mater.Interfaces, 12(11), 12867 - 12873, 2020

  4. Excellent Moisture Stability and Efficiency of Inverted All-Inorganic CsPbIBr2 Perovskite Solar Cells through Molecule Interface Engineering: Yang S., Wang L., Gao L., Cao J., Han Q., YU F., Kamata Y., Zhang C., Fan M., Wei G., Ma T. : ACS Appl,Mater.Interfaces, 12(12), 13931 - 13940, 2020

  5. Enhanced Device Performance with Passivation of the TiO2 Surface Using a Carboxylic Acid Fullerene Monolayer for a SnPb Perovskite Solar Cell with a Normal Planar Structure : Hamada K., Tanaka R., Kamarudin A.M., Shen Q., Iikubo S., Minemoto T., Yoshino K., Toyoda T., Ma T., Kang D., Hayase S. : ACS Appl,Mater,Interfaces, 2020

  6. 2D heterostructure comprised of Ni3S2/d-Ti3C2 supported on Ni foam as binder-free electrode for hybrid supercapacitor : Zhao Y., Guo J., Liu A., Ma T. : Journal of Alloys and Compounds, 814, 152271, 2020

  7. Aurivillius Halide Perovskite: A New Family of Two-Dimensional Materials for Optoelectronic Applications : Zhao S., Lan C., Li H., Zhang C., Ma T. : Journal of Physical Chemistry C, 124(3), 1788 – 1793, 2020.

  8. A black phosphorus/Ti3C2 MXene nanocomposite for sodium-ion batteries: A combined experimental and theoretical study : Li H., Liu A., Ren X., Yang Y., Gao L., Fan M., Ma T. : Nanoscale, 11 (42), 19862 – 19869, 2019.

  9. Bifunctional Dye Molecule in All‐Inorganic CsPbIBr2 Perovskite Solar Cells with Efficiency Exceeding 10% : Yang S., Guo Z., Gao L., Yu F., Zhang C., Fan M.,Wei G., Ma T. : Solar RRL, Volume: 3, Issue: 9, 2019.

  10. Highly accessible hierarchical porous carbon from a bi-functional ionic liquid bulky gel: high performance electrochemical double layer capacitors : Yan Y., Hao X., Gao L., Lin S., Cui N., Li Y.,Hao C., Ma T.,Wang H : Journal of Chemistry A, 7, 25297–25304, 2019.

  11. A novel strategy to synthesize CoMoO4 nanotube as highly efficient oxygen evolution reaction electrocatalyst : Li Y., Wang C., Cui M., Chen S., Ma T. : Catalysis Communications, 131, 2019.

  12. La-doped SnO2 as ETL for efficient planar-structure hybrid perovskite solar cells : Xu Z., Teo S., Gao L., Guo Z., Kamata Y., Hayase S., Ma T. : Organic Electronics: physics, materials, applications, 73, 62 – 68, 2019.

  13. Large-Area Perovskite Solar Cells : Yan Y., Cao J., Meng F., Wang N., Gao L., Ma T. : Progress in Chemistry, 31(7), 1031 – 1043, 2019.

  14. Niobium Incorporation into CsPbI2Br for Stable and Efficient All-Inorganic Perovskite Solar Cells : Guo Z., Zhao S., Liu A., Kamata Y., Teo S., Yang S., Xu Z., Hayase S., Ma T. : ACS Applied Materials and Interfaces, 11(22), 19994 – 20003, 2019.

  15. Favorable growth of well-crystallized layered hybrid perovskite by combination of thermal and solvent assistance : Xue C., Shi Y., Zhang C., Lv Y., Feng Y., Tian W., Jin S., Ma T. : Journal of Power Sources, 422, 156 – 162, 2019.

  16. Electrostatic self-assembly of 2D delaminated MXene (Ti3C2) onto Ni foam with superior electrochemical performance for supercapacitor : Guo J., Zhao Y., liu A., Ma T. : Electrochimica Acta, 305, 164 – 174, 2019.

  17. Enhancing oxygen evolution reaction electrocatalytic performance with vanadium-doped Co/CoO encapsulated in carbon nanorod : Huang H., Li Y., Li W., Chen S., Wang C., Cui M., Ma T. : Inorganic Chemistry Communications, 103, 1 – 5, 2019.

  18. Xanthate-induced sulfur doped all-inorganic perovskite with superior phase stability and enhanced performance : Wang Z., Baranwal A., kamarudin M., Ng c., Pandey M., Ma T., Hayase S. : Nano Energy, 59, 258 – 267, 2019.

  19. Ultra-low-cost coal-based carbon electrodes with seamless interfacial contact for effective sandwich-structured perovskite solar cells : Meng F., Gao L., Yan Y., Cao J., Wang N., Wang T., Ma T. : Carbon, 145, 290 – 296, 2019.

  20. 2D nanoplate assembled nitrogen doped hollow carbon sphere decorated with Fe3O4 as an efficient electrocatalyst for oxygen reduction reaction and Zn-air batteries : Li Y., Huang H., Chen S., Yu X., Wang C., Ma T. : Nano Research, 12, 2774 - 2780, 2019

  21. Synthesis of monodispersed silver particles: Synthetic techniques to control shapes, particle size distribution and lightness of silver particles : Sannohe K., Ma T., Hayase S. : Adovanced Powder Technology, 30(12), 3088 - 3098, 2019

  22. Delocalized molecule surface electronic modification for enhanced performance and high environmental stability of CsPbI2Br perovskite solar cells : Wang Z., Baranwal K. A., Kamarudin A. M., Zhang P., Kapil G., Ma T., Hayase S. : Nano Energy, 66, 104180, 2019

  23. Alternative electrodes for HTMs and noble-metal-free perovskite solar cells: 2D MXenes electrodes : Cao J., Meng F., Gao L., Yang S., Yan Y., Wang N., Liu A., Li Y., Ma T. : RSC Adv., 9, 34152 - 34157, 2019

Publication 2018.04-2019.03

  1. In-situ growth of nanowire WO2.72 on carbon cloth as a binder-free electrode for flexible asymmetric supercapacitors with high performance : Xiao Huang, Zhiguo Zhang, Huan Li, Hongxia Wang, and Tingli Ma : Journal of Energy Chemistry, 2018, DOI: 10. 1016/jechem.2018.01.024

  2. Design of a Novel and Highly Stable Lead-Free Cs2NaBiI6 Double Perovskite for Photovoltaic Application : Chu Zhang, Liguo Gao, Siohwa Teo, Zhanglin Guo, Zhenhua Xu, Shuai Zhao and Tingli Ma : Sustainable Energy & Fuels, 2018, DOI: 10.1039/C8SE00154E.

  3. Effective Oxygen Reduction and Evolution Catalysts Derived from Metal Organic Frameworks by Optimizing Active Sites : Yanqiang Li, Haibin Xu, Huiyong Huang, Liguo Gao, and Tingli Ma : J. Electrochem. Soc., 2018, 165,158-165.

  4. Preparation of Perovskite Films under Liquid Nitrogen Atmosphere for High Efficiency Perovskite Solar Cells : Zhang P., Yang F., Kapil G., Ng C., Ma T., Hayase S. : ACS Sustainable Chemistry and Engineering, 7(4), 3956 – 3961, 2019.

  5. Nanowire-Templated Synthesis of FeNx-Decorated Carbon Nanotubes as Highly Efficient, Universal-pH, Oxygen Reduction Reaction Catalysts : Li Y., Huang H., Chen S., Wang C., Ma T. : Chemistry - A European Journal, 25( 10), 2637 – 2644, 2019.

  6. Killing Two Birds with One Stone: A Highly Active Tubular Carbon Catalyst with Effective N Doping for Oxygen Reduction and Hydrogen Evolution Reactions : Li Y., Huang H., Chen S., Wang C., Liu A., Ma T. : Catalysis Letters, 149(2), 486 – 495, 2019.

  7. In-situ growth of nanowire WO2.72on carbon cloth as a binder-free electrode for flexible asymmetric supercapacitors with high performance : Huang X., Zhang Z., Li H., Wang H., Ma T. : Journal of Energy Chemistry, 29, 58-64, 2018,

  8. The Role of Lanthanum in a Nickel Oxide-Based Inverted Perovskite Solar Cell for Efficiency and Stability Improvement : Teo S., Guo Z., Xu Z., Zhang C., Kamata Y., Hayase S., Ma T. : ChemSusChem, 12( 2), 518 – 526, 2019.

  9. A facile approach for the fabrication of loading-controlled Ag/C foam catalyst : Liu A., Ren X., Yao Y., Yang Q., Gao M., Yang Y., Guo J., Li Y., Gao L., Ma T. : Ionics, 25(1), 361 – 365, 2019.

  10. Free-standing NiCo2S4@VS2 nanoneedle array composite electrode for high performance asymmetric supercapacitor application : Zhang Z., Huang X., Wang H., Teo S., Ma T. : Journal of Alloys and Compounds, 771, 274 – 280, 2019.

  11. Passivation of Grain Boundary by Squaraine Zwitterions for Defect Passivation and Efficient Perovskite Solar Cells : Wang Z., Pradhan A., Kamarudin M., Pandey M., Pandey S., Zhang P., Ng C., Tripathi A., Ma T., Hayase S.: ACS Applied Materials and Interfaces, 2019, 11 (10), 10012 – 10020.

  12. Development of a mixed halide-chalcogenide bismuth-based perovskite MABiI2S with small bandgap and wide absorption range : Zhang C., Teo S., Guo Z., Gao L., Kamata Y., Xu Z., Ma T. : Chemistry Letters, 48(3), 249 - 252, 2019.

  13. Achievable high Voc of carbon based all-inorganic CsPbIBr2 perovskite solar cells through interface engineering : Guo Z., Teo S., Xu Z., Zhang C., Kamata Y., Hayase S., Ma T. : Journal of Materials Chemistry A, 7(3), 1227-1232, 2019.

  14. Indium Zinc Oxide Electron Transport Layer for High-Performance Planar Perovskite Solar Cells : Liang Wang, Fengjing Liu, Xiaoyong Cai, Tingli Ma, Chao Jiang. : Journal of Physical Chemistry C, 122(50), 28491 - 28496, 2018.

  15. One-pot synthesis of 2D Ti3C2/Ni2CO3(OH)2 composite as electrode material with superior capacity and high stability for hybrid supercapacitor : Guo J., Zhao Y., Jiang N., Liu A., Gao L., Li Y., Wang H., Ma T. : Electrochimica Acta , 292, 168 – 179, 2018.

  16. Interfacial Sulfur Functionalization Anchoring SnO2 and CH3NH3PbI3 for Enhanced Stability and Trap Passivation in Perovskite Solar Cells : Wang Z., Kamarudin M., Huey N., Yang F., Pandey M., Kapil G., Ma T., Hayase S. : ChemSusChem, 11(22), 3941 – 3948, 2018.

  17. High Electrical Conductivity 2D MXene Serves as Additive of Perovskite for Efficient Solar Cells, Guo Z., Gao L., Xu Z., Teo S., Zhang C., Kamata Y., Hayase S., Ma T., Small, 14, 47, 2018.

  18. Addition Effect of Pyreneammonium Iodide to Methylammonium Lead Halide Perovskite-2D/3D Heterostructured Perovskite with Enhanced Stability : Yang F., Zhang P., Kamarudin M., Kapil G., Ma T., Hayase S. : Advanced Functional Materials, 28, 46, 2018.

  19. In Situ Growth of a Feather-like MnO2 Nanostructure on Carbon Paper for High-Performance Rechargeable Sodium-Ion Batteries : Li H., Liu A., Zhao S., Guo Z., Wang N., Ma T. : ChemElectroChem, 5(21), 3266 – 3272, 2018.

  20. In situ fabrication of 2D SnS2 nanosheets as a new electron transport layer for perovskite solar cells : Zhao E., Gao L., Yang S., Wang L., Cao J., Ma T. : Nano Research, 11(11), 5913 – 5923, 2018.

  21. Enhanced performance of ZnO based perovskite solar cells by Nb2O5 surface passivation : Zhang P., Yang F., Kapil G., Shen Q., Toyoda T., Yoshino K., Minemoto T., Pandey S., Ma T., Hayase S. : Organic Electronics: physics, materials, applications, 62, 615 – 620, 2018.

  22. One-step salt-assisted solution combustion synthesis of Ni-based composites for use as supercapacitor electrodes : Zhao Y., Jiang N., Zhang X., Guo J., Yang Q., Gao L., Li Y., Ma T. : Journal of Alloys and Compounds, 765, 396-404, 2018.

  23. Pr/Ba cation-disordered perovskite Pr2/3Ba1/3CoO31δ as a new bifunctional electrocatalyst for oxygen reduction and oxygen evolution reactions : Zhang W., Shiraiwa M., Wang N., Ma T., Fujii K., Niwa E., Yashima M. : Journal of the Ceramic Society of Japan, 126(10), 814 – 819, 2018.

  24. Low-cost, large-scale, one-pot synthesis of C/Ni3 (NO3)2(OH)4 composites for high performance supercapacitor : Zhao Y., Jiang N., Zhang X., Guo J., Li Y., Gao L., Wang H., Ma T. : Materials Chemistry and Physics, 217, 291 – 299, 2018.

  25. Solution-Processed Air-Stable Copper Bismuth Iodide for Photovoltaics : Hu Z., Wang Z., Kapil G., Ma T., Iikubo S., Minemoto T., Yoshino K., Toyoda T., Shen Q., Hayase S. : ChemSusChem, 11(17), 2930 – 2935, 2018.

  26. Solution-Processed Air-Stable Copper Bismuth Iodide for Photovoltaics : Hu Z., Wang Z., Kapil G., Ma T., Iikubo S., Minemoto T., Yoshino K., Toyoda T., Shen Q., Hayase S. : ChemSusChem, 11(17), 2930 – 2935, 2018.

  27. Performance Enhancement of Mesoporous TiO2-Based Perovskite Solar Cells by SbI3 Interfacial Modification Layer : Zhang P., Yang F., Kamarudin M., Ng C., Kapil G., Ma T., Hayase S. : ACS Applied Materials and Interfaces, 10(35), 29630 – 29637, 2018.

  28. Environmental effects on the ionic conductivity of poly(methyl methacrylate) (PMMA)-based quasi-solid-state electrolyte : Xu T., Li J., Gong R., Xi Z., Huang T., Chen L., Ma T. : Ionics, 24(9), 2621-2629, 2018.

  29. Study to Observe the Effect of PbI2Passivation on Carbon Electrode for Perovskite Solar Cells by Quartz Crystal Microbalance System : Zhang P., Kapil G., Hamada K., Pandey S., Ma T., Hayase S. : ACS Sustainable Chemistry and Engineering, 6(8), 10221-10228, 2018.

  30. Magnesium-Doped MAPbI3Perovskite Layers for Enhanced Photovoltaic Performance in Humid Air Atmosphere : Yang F., Kamarudin M., Kapil G., Hirotani D., Zhang P., Ng C., Ma T., Hayase S. : ACS Applied Materials and Interfaces, 10(29), 24543-24548, 2018.

  31. Enhanced Crystallization by Methanol Additive in Antisolvent for Achieving High-Quality MAPbI3Perovskite Films in Humid Atmosphere : Yang F., Kamarudin M., Zhang P., Kapil G., Ma T., Hayase S. : ChemSusChem, 11(14), 2348-2357, 2018.

  32. Minute quantities of hexagonal nanoplates PtFe alloy with facile operating conditions enhanced electrocatalytic activity and durability for oxygen reduction reaction : Wang N., Li Y., Guo Z., Li H., Hayase S., Ma T. : Journal of Alloys and Compounds, 752, 23-31, 2018.

  33. First-principles study of electronic and optical properties of lead-free double perovskites Cs2NaBX6 (B = Sb, Bi; X = Cl, Br, I) : Shuai Zhao, Kumiko Yamamoto, Satoshi Iikubo, Shuzi Hayase, and Tingli Ma* : Journal of Physics and Chemistry of Solids, 2018. 117,117-121.

  34. Dependence of Acetate-Based Antisolvents for High Humidity Fabrication of CH3NH3PbI3Perovskite Devices in Ambient Atmosphere : Yang F., Kapil G., Zhang P., Hu Z., Kamarudin M., Ma T., Hayase S. : ACS Applied Materials and Interfaces, 10(19), 16482-16489, 2018,

  35. Incredible PCE Enhancement Induced by Damaged Perovskite Layers: Deeply Understanding the Working Principle of Additives in Bulk Heterojunction Perovskite Solar Cells : Liguo Gao, Likun Wang, Xiaogang Ding, Erling Zhao, Shuzhang Yang, Yingyuan Zhao, Yanqiang Li, Shufeng Wang and Tingli Ma* : J.Mater.Chem.A., 2018, 6, 4365-4373.

  36. One-Dimensional MoO2-Co2Mo3O8@C Nanorods: A Novel and High Efficient Oxygen Evolution Reaction Catalyst Derived from Metal Organic Framework Composite. Chemical Communications : Yanqiang Li, Haibin Xu, Huiyong Huang, Chao Wang, Liguo Gao, and Tingli Ma* : Chem. Commun., 2018, 54, 2739-274。

  37. Low-Temperature Processed Non-TiO2 Electron Selective Layers for Perovskite Solar Cells : Zhanglin Guo, Liguo Gao, Chu Zhang, Zhenhua Xu, and Tingli Ma* : J.Mater.Chem.A., 2018, 6, 4572-4589.

研究業績 2017年

Publication 2017

  1. A novel composite of W18O49 nanorods on reduced graphene oxide sheets based on in situ synthesis and catalytic performance for oxygen reduction reaction : Jiahao Guo,* Yantao Shi,* Huawei Zhou, Xuchun Wang and Tingli Ma* : RSC Adv., 7, 2051, 2017.

  2. Facile synthesis of N, S co-doped porous carbons from a dual-ligand metal organic framework for high performance oxygen reduction reaction catalysts : Yanqiang Li, Haibin Xu, Huiyong Huang, Liguo Gao, Yingyuan Zhao, and Tingli Ma* : Electrochimica Acta, 254, 148-154, 2017.

  3. All-solid-state flexible asymmetric supercapacitors with high energy and power densities based on NiCo2S4@MnS and active carbon : Zhiguo Zhang, Xiao Huang, Huan Li, Hongxia Wang, Yingyuan Zhao, and Tingli Ma* : J.Energy.Chem., 2017, 26, 1260-1266.

  4. Pinhole-Free Perovskite Films by Methylamine Iodide Solution-Assisted Repair for High-Efficiency Photovoltaics under Ambient Conditions : Wang Liang, Liu Fengjing, Wang Jiawei, Cai Xiaogong, Wang Gongtang, Tingli Ma* and Jiang Chao : ACS Applied Materials & Interfaces, 8, 45, 30920-30925, 2017.

  5. A novel composite of W18O49 nanorods on reduced graphene oxide sheets based on in situ synthesis and catalytic performance for oxygen reduction reaction : Guo Jiahao, Shi YanTao, Zhou Huawei, Wang Xunchun, and Tingli Ma* : RSC Advances, 7, 4, 2051-2057, 2017.

  6. Transparent conductive oxide-less back cintact dye-sensitized solar cells using flat titanium sheet with microholes for photoanode farication : Azwar, Baranwal Ajay Kumar, Nakamura Masaki, Shigeki Fujisawa, Pandey Shyam S, Tingli Ma* and Hayase Shuzi : Journal of Photonics for Energy, 7, 1, 2017.

  7. Advance and Obstacles on Perovskite Solar Cell Research from Material Properties to Photovoltaic Function : Bisquert Juan*, Qi Yabing, Tingli Ma and Yan Yanfa : ACS Energy Letters, 2, 2, 520-523, 2017.

  8. One-Stage Method For Fabricating Superhydrophobic Stainless Steel Surface and Its Anti-Corrosion Preformance : Gao Liguo, Yang Shuzhang, Yang Hongjing, and Tingli Ma* : Advance Engineering Materials. 219, 2, 2017.

  9. Transparent Conductive Oxide Layer and Hole Selective Layer Free Back-Contacted Hybrid Perovskite Solar Cell : Hu Zhaosheng, Kapil Gauray, Shimazaki Hiromitsu, Pandey Shyam Sudhir, Tingli Ma* and Shuzi Hayasei : Journal of Physical Chemistry C. 121, 8, 4214-4219. 2017.

  10. Low-temperature processed compact layer for perovskite solar cells with negligible hysteresis : Wang Liang, Liu Fengjing, Cai Xiaoyong, Wang Gongtang, and Tingli Ma* : Electrochimica Acta. 235, 640-645, 2017.

  11. Current Advancements in Material Research and Techniques Focusing on Lead-free Perovskite Solar Cells : Chu Zhang, Liguo Gao, Shuzi Hayasei, and Tingli Ma* : Chemistry Letter, 46(9), 1276-1284, 2017.

  12. Metal?organic framework derived hierarchical porous TiO2 nanopills as a super stable anode for Na-ion batteries : Huan Li, Zhiguo Zhang, Xiao Huang, Tongbin Lan, Mingdeng Wei, and Tingli Ma* : J. Energy. Chemistry., 26(4),667-672, 2017.

  13. Effect of lead-free (CH3NH3)3Bi2I9 perovskite addition on spectrum absorption and enhanced photovoltaic performance of bismuth triiodide solar cells : Chunfeng Lan, Jingting Luo, Shuai Zhao, Chu Zhang, Weiguo Liu, Shuzi Hayase, and Tingli Ma* : J. All. com., 701, 834-840, 2017.

  14. 3-D honeycomb NiCo2S4 with high electrochemical performance used for supercapacitor electrodes : Zhiguo Zhang, Xiao Huang, Huan Li, Yingyuan Zhao, and Tingli Ma* : Applied Surface Science, 400, 238?244, 2017.

研究業績 2016年

Publication 2016

  1. Concentration gradient controlled growth of large-grain CH3NH3PbI3 films and enhanced photovoltaic performance of solar cells in ambient conditions : Chunfeng Lan, Shuai Zhao, Chu Zhang, Weiguo Liu, Shuzi Hayase and Tingli Ma* : CrystEngComm, 2016,18, 9243-9251

  2. Strategic improvement of the long-term stability of perovskite materials and perovskite solar cells : Tingting Xu, Lixin Chen, Zhanhu Guo, and Tingli Ma* : Physical Chemistry Chemical Physics, 2016, 2016,18, 27026-27050

  3. Recent progress of silicon composites as anode materials for secondary batteries : Jingjing Wang, Tingting Xu, Xiao Huang, Huan Li, and Tingli Ma* : RSC Advances, 2016, 6, 87778-87790

  4. Oxygen vacancy formation and migration in double perovskite Sr2CrMoO6: a first-principles study : Shuai Zhao, Liguo Gao, Chunfeng Lan, Shyam S. Pandey, Shuzi Hayase, Tingli Ma* : RSC Advances, 2016.

  5. First principles analysis of oxygen vacancy formation and migration in Sr2BMoO6 (B = Mg, Co, Ni) : Shuai Zhao, Liguo Gao, Chunfeng Lan, Shyam S. Pandey, Shuzi Hayase, Tingli Ma* : RSC Advances, 2016, 6, 31968-31975.

  6. Graphene-mediated highly-dispersed MoS2 nanosheets with enhanced triiodide reduction activity for dye-sensitized solar cells : Chang Yua, Xiangtong Meng, Xuedan Song, Suxia Liang, Qiang Dong, Gang Wang, Ce Hao, Xichuan Yang, Tingli Ma, Pulickel M. Ajayanb, Jieshan Qiu : Carbon, Volume 100, April 2016, Pages 474?483.

  7. Earth-abundant and nano-micro composite catalysts of Fe3O4@reduced graphene oxide for green and economical mesoscopic photovoltaic devices with high efficiencies up to 9% : Huawei Zhou, Jie Yin*, Zhonghao Nie, Zhaojin Yang, Dongjie Li, Junhu Wang, Xin Liu, Changzi Jin, Xianxi Zhang*, Tingli Ma* : J. Mater. Chem. A, 2016, 4, 67-73.

  8. Catalytic activities enhanced by abundant structural defects and balanced N distribution of N-doped graphene in oxygen reduction reaction : Xiaogong Bai, Yantao Shi, Jiahao Guo, Liguo Gao, Kai Wanga, Yi Du, Tingli Ma* : Journal of Power Sources, Volume 306, 29 February 2016, Pages 85?91.

  9. Investigation on structures, band gaps, and electronic structures of lead free La2NiMnO6 double perovskite materials for potential application of solar cell : Chunfeng Lan, Shuai Zhao, Tingting Xu, Jie Ma, Shuzi Hayase, Tingli Ma* : Journal of Alloys and Compounds 2016, 655, pp 208?214.

  10. Amorphous Inorganic Electron-Selective Layers for Efficient Perovskite Solar Cells: Feasible Strategy Towards Room-Temperature Fabrication : Kai Wang, Yantao Shi, Bo Li, Liang Zhao, Wei Wang, Tingli Ma* : Advanced Materials, 2016, 28, 1891?1897 , DOI: 10.1002/adma.

International Conference 2016

  1. Kai Wang, Yangtao Shi,Tingli Ma, Development nano functional materials for perovskite solar cell, EMN Photovoltaics Meeting 2016,Hong Kong China

Japan Conference 2016

  1. Tingli Ma.,ECSJ Spring Meeting 2016,Osaka Japan

  2. Tingli Ma., The 96th CSJ Annual Meeting 2016, Kyoto Japan

  3. Tingli Ma.,JSAP Spring Meeting 2016 2016,Tokyo Japan

研究業績 2015年

Publication 2015

  1. Combining novel device architecture and NIR dye towards the fabrication of transparent conductive oxide-less tandem dye sensitized solar cells : Ajay Kumar Baranwal, Naotaka Fujikawa, Azwar Hayat, Yuhei Ogomi, Shyam S. Pandey, Tingli Ma and Shuzi Hayase* : Applied Physics Express, Volume 8, Number 10.

  2. Amorphous Inorganic Electron-Selective Layers for Efficient Perovskite Solar Cells: Feasible Strategy Towards Room-Temperature Fabrication : Kai Wang,Yantao Shi,Bo Li,Liang Zhao,Wei Wang,Xiangyuan Wang,Xiaogong Bai,Shufeng Wang,Ce Hao, Tingli Ma* : Adv. Mater., 10.1002/adma.201505241.

  3. Low-Temperature and Solution-Processed Amorphous WOX as Electron-Selective Layer for Perovskite Solar Cells : Kai Wang, Yantao Shi*, Qingshun Dong, Yu Li, Shufeng Wang, Xufeng Yu, Mengyao Wu, Tingli Ma* : J. Phys. Chem. Lett., 2015, 6 (5), pp 755?759.

  4. Counter electrode materials combined with redox couples in dye- and quantum dot-sensitized solar cells : Mingxing Wu,* Xiao Lin, Yudi Wang, Tingli Ma* : J. Mater. Chem. A, 2015,3, 19638-19656.

  5. Insight into Perovskite Solar Cells Based on SnO2 Compact Electron-Selective Layer : Qingshun Dong, Yantao Shi*, Kai Wang, Yu Li, Shufeng Wang, Hong Zhang, Yujin Xing, Yi Du, Xiaogong Bai, Tingli Ma*: J. Phys. Chem. C, 2015, 119 (19), pp 10212?10217.

  6. Perovskite Solar Cell Using a Two-Dimensional Titania Nanosheet Thin Film as the Compact Layer : Can Li, Yahui Li, Yujin Xing, Zelin Zhang, Xianfeng Zhang, Zhen Li, Yantao Shi, Tingli Ma, Renzhi Ma, Kunlin Wang, and Jinquan Wei* : ACS Appl. Mater. Interfaces, 2015, 7 (28), pp 15117?15122.

  7. CH3NH3PbI3 and CH3NH3PbI3?xClx in Planar or Mesoporous Perovskite Solar Cells: Comprehensive Insight into the Dependence of Performance on Architecture : Yantao Shi*, Yujin Xing, Yu Li, Qingshun Dong, Kai Wang, Yi Du, Xiaogong Bai, Shufeng Wang, Zhijian Chen, Tingli Ma* : J. Phys. Chem. C, 2015, 119 (28), pp 15868?15873.

  8. Synthesis of highly effective Pt/carbon fiber composite counter electrode catalyst for dye-sensitized solar cells : Hongyue Guo, Yajing Zhu, Wenyan Li, Haikuo Zheng, Kezhong Wu, Keqiang Ding, Bei Ruan, Anders Hagfeldt, Tingli Ma, Mingxing Wu* : Electrochimica Acta, Volume 176, 10 September 2015, Pages 997?1000.

  9. Transition metal selenides as efficient counter-electrode materials for dye-sensitized solar cells : Jiahao Guo, Suxia Liang, Yantao Shi,* Ce Hao, Xuchun Wang, Tingli Ma* : Phys. Chem. Chem. Phys., 2015,17, 28985-28992

  10. Electrocatalytic properties of iron chalcogenides as low-cost counter electrode materials for dye-sensitized solar cells : Jiahao Guo, Suxia Liang, Yantao Shi,* Bo Li, Ce Hao, Xuchun Wang, Tingli Ma* : RSC Adv., 2015,5, 72553-72561

  11. Antisolvent diffusion-induced growth, equilibrium behaviours in aqueous solution and optical properties of CH3NH3PbI3 single crystals for photovoltaic applications : Huawei Zhou, Zhonghao Nie, Jie Yin, Yuanwei Sun, Hongyan Zhuo, Daqi Wang, Dacheng Li, Jianmin Dou, Xianxi Zhang, Tingli Ma* : RSC Adv., 2015,5, 85344-85349.

  12. First principles study on the electronic and optical properties of B-site ordered double perovskite Sr2MMoO6 (M=Mg, Ca, and Zn) : Shuai Zhao, Chunfeng Lan, Jie Ma, Shyam S. Pandey, Shuzi Hayase, Tingli Ma* : Solid State Communications 2015, 213?214, pp 19?23.

  13. Dye-sensitized solar cells based on axially ligated phosphorus-phthalocyanine dyes : Azwar Hayat, Gururaj M. Shivashimpi, Terumi Nishimura, Naotaka Fujikawa, Yuhei Ogomi, Yoshihiro Yamaguchi, Shyam S. Pandey, Tingli Ma and Shuzi Hayase* : Appl. Phys. Express 8 047001.

  14. Low-Temperature Processed and Carbon-Based ZnO/CH3NH3PbI3/C Planar Heterojunction Perovskite Solar Cells : Huawei Zhou, Yantao Shi, Kai Wang, Qingshun Dong, Xiaogong Bai, Yujin Xing, Yi Du, Tingli Ma* : J. Phys. Chem. C, 2015, 119 (9), pp 4600?4605.

  15. Effects of 4-tert-butylpyridine on perovskite formation and performance of solution-processed perovskite solar cells : Yantao Shi, Tingli Ma* : J. Mat. Cheml. A., 2015, DOI: 10.1039/C5TA05988G.

  16. Synthesis of CH3NH3SrxPb(1-x)I3 with Less Pb Content and Its Application in All-Solid Thin Film Solar Cells : XiaoGong Bai, YanTao Shi, Kai Wang, QingShun Dong, YuJin Xing, Hong Zhang, Liang Wang,Tingli Ma* : Acta Phys. -Chim. Sin. 2015, 31, 285. DOI:10.3866/PKU.WHXB201412241.

International Conference 2015

  1. Kai Wang, Qingshun Dong, Chunfeng Lan, Shuai Zhao, Tingli Ma* Low temperature and solution processed electron selective layer for flexible perovskite solar cells, XXIV Internatonal Materialss Reseach Congress 2015, Mexico

  2. Tingli Ma*, Kai Wang, Yantao Shi. Development of nanomaterials and application in DSSCs and Perovskite solar cells The Second Conference on New Generation Solar Cells. 2015,China

  3. Kai Wang, Yangtao Shi, Tingli Ma*, WOx and SnO2 as Electron Selective Layer for Perovskite Solar Cells Base on New Pt-like Counter Electrodes The 7th International Conference on Hybrid and Organic Photovoltaics (HOPV 2015) 2015, Roma, Italy

Japan Conference 2015

  1. Tingli Ma., JSAP Autumn Meeting 2015, Nagoya Japan

  2. Tingli Ma., ECSJ Autumn Meeting 2015, Saitama Japan

研究業績 2014年

Publication 2014

  1. Hole-Conductor-Free, Metal-Electrode-Free TiO2/CH3NH3PbI3 Heterojunction Solar Cells Based on a Low-Temperature Carbon Electrode : Huawei Zhou, Yantao Shi*, Qingshun Dong, Hong Zhang, Yujin Xing, Kai Wang, Yi Du, and Tingli Ma* : J. Phys. Chem. Lett. 2014, DOI:10.1021/jz5017069.(IF:6.687)

  2. Surface Oxygen Vacancy-Dependent Electrocatalytic Activity of W18O49 Nanowires : Huawei Zhou,?Yantao Shi*, Qingshun Dong, Jian Lin, Aiqin Wang and?Tingli Ma* : The Journal of Physical Chemistry C.,?2014, DOI:10.1021/jp504368v.(IF:4.835)

  3. A green route and rational design for ZnO-based high-efficiency photovoltaics : Yantao Shi, Chao Zhu,?Yanxiang Wang*, Lin Wang, Yi Du, Junfu Gu, Tingli Ma, Anders Hagfeldt and?Ning Wang* : Nanoscale.,?2014, 6, 5093.(IF:6.739)

  4. Zn2SnO4-Based Dye-Sensitized Solar Cells: Insight into Dye-Selectivity and Photoelectric Behaviors : Kai Wang,?Yantao Shi*, Wei Guo,Xiaoqiang Yu,?Tingli Ma* : Electrochimica Acta.,?2014, 135, 242.(IF:4.086)

  5. Iron oxide nanostructures as highly efficient heterogeneous catalysts for mesoscopic photovoltaics : Liang Wang,?Yantao Shi*, Hong Zhang, Xiaogong Bai, Yanxiang Wang and?Tingli Ma* : Journal of Materials Chemistry A.,2014, 2, 15279.(IF:6.626)

  6. Screen-printed Pt counter electrodes exhibiting high catalytic activity : Chunyu Zhao,?Yantao Shi*, Zhiyong Zhong,?Tingli Ma* : Chinese Journal of Catalysis.,2014, 35, 219.

  7. Dual Functional Additive for HTM Layer in Perovskite Solar Cells : Hong Zhang,?Yantao Shi*, Feng Yan, Liang Wang, Kai Wang, Yujin Xing, Qingshun Dong, and?Tingli Ma* : Chem. Commun.,?2014,?50, 5020-5022.(IF:6.718)

  8. Single-Atom Catalysis in Mesoscopic Photovoltaics: The Principle of Utility Maximization : Yantao Shi*, Chunyu Zhao, Haisheng Wei, Jiahao Guo, Suxia Liang, Aiqin Wang, Tao Zhang*, Jingyue Liu, and Tingli Ma* : Adv. Mater. 2014,26, 8147. DOI: 10.1002/adma.201402978

  9. Pt-Free Counter Electrode for Dye-Sensitized Solar Cells with High Efficiency : Sining Yun,* Anders Hagfeldt, and Tingli Ma : Adv. Mater. 2014.(IF:13.8)

  10. Interlaced W18O49 nanofibers as a superior catalyst for the counter electrode of highly efficient dyesensitized solar cells : Huawei Zhou,Yantao Shi,, Qingshun Dong,Yanxiang Wang,Chao Zhu,Liang Wang,Ning Wang,Ying Wei, Shengyang Tao and Tingli Ma* : J. Mater. Chem. A, 2014,2(12), 4347-4354.(IF:6.101)

  11. Composite Catalyst of Rosin Carbon/Fe3O4: Highly Efficient Counter Electrode for Dye-Sensitized Solar Cell : Liang Wang, Yantao Shi, Yanxiang Wang, Hong Zhang, Hua wei Zhou, Ying Wei, Shengyang Tao and Tingli Ma* : Chem. Commun., 2014,501701-1703.(IF:6.378)

  12. From Marine Plant to Photovoltaic Devices : Liang Wang, Yantao Shi*, Xiaogong Bai, Yujin Xing, Hong Zhang, Lin Wang, Wei Guo, Ning Wang, Tingli Ma*,and Michael Gratzel : Energy & Environmental Science, 2014.(IF:11.653)

  13. Selenium as a photoabsorber for inorganic-organic hybrid solar cells : Kai Wang, Yantao Shi*, Hong Zhang, Yujin Xing, Qingshun Dong, and Tingli Ma* : PCCP. 2014, 16, 23316. DOI: 10.1039/c4cp02821j

  14. Composite Catalyst of Rosin Carbon/Fe3O4: Highly Efficient Counter Electrode for Dye-Sensitized Solar Cell : Liang Wang,?Yantao Shi, Yanxiang Wang, Hong Zhang, Hua wei Zhou, Ying Wei, Shengyang Tao and?Tingli Ma* : Chem. Commun.,?2014, 50, 1701-1703.(IF:6.378)

  15. Pt-Free Counter Electrode for Dye-Sensitized Solar Cells with High Efficiency : Sining Yun, Tingli Ma* : Adv. Mater., 2014, 26, 6720-2727

International Conference 2014

  1. Kai Wang, Qingshun Dong, Yantao Shi, Chunfeng Lan, Shuai Zhao, Tingli Ma*, Low-temperature Processed and Carbon-based Flexible Perovskite Solar Cells with High Stability., MRS.Spring meeting, 2014 Boston.U.S

  2. Liang Wang, Huawei Zhou, Jiaohao, Guo, Yangtao Shi, Shuzi, Hayase, Tingli Ma*, Low-cost Dye-sensitized Solar Cells Base on New Pt-like Counter Electrodes The 6th International Conference on Hybrid and Organic Photovoltaics (HOPV 2014) 2014, Lausanne, Switzerland.

  3. Md. Zaman Molla, Gaurav Kapil, Qi Zhao, Ao Li, Yuexian Cao, Yuhei Ogomi, Shyam. S. Pandey, Shigeki Fujisawa, Tingli Ma*, and Shuzi Hayase, Cylindrical TCO-Less dye-sensitized solar cells with back contact structure, The 15th IUMRS-International Conference in Asia (IUMRS-ICA 2014) 2014 Fukuoka, Japan

  4. Hong Zhang, Yantao Shi, and Tingli Ma*, Dual Functional Additive for Perovskite Solar Cells, The 20th International Conference on Photochemical Conversion and Storage of Solar Energy (IPS-20)

研究業績 2013年

Publication 2013

  1. From Marine Plant to Photovoltaic Devices : Liang Wang, Yantao Shi*, Xiaogong Bai, Yujin Xing, Hong Zhang, Lin Wang, Wei Guo, Ning Wang, Tingli Ma*
    , and Michael Gratzel Energy & Environmental Science, 2013,DOI:10.1039/C3EE42767F.(IF:11.653)

  2. Morphology dependence of performance of counter electrodes for dye-sensitized solar cells of hydrothermally prepared hierarchical Cu2ZnSnS4 nanostructures : Yahong Xie*, Chunyang Zhang, Fan Yue, Yun Zhang, Yantao Shi and Tingli Ma* : RSC Advances, 2013, 3, 23264-23268.(IF:2.562)

  3. Metal Oxide/Carbide/Carbon Nanocomposites: In Situ Synthesis, Characterization, Calculation and its Application as Efficient Counter Electrode Catalyst for Dye-Sensitized Solar Cells : Sining Yun*, Hong Zhang, Huihai Pu, Junhong Chen, Anders Hagfeldt and Tingli Ma* : Advanced Energy Materials, 2013, doi:10.1002/aenm.201300242, (IF:10.043)

  4. Highly efficient telluride electrocatalysts for use as Pt-free counter electrodes in dye-sensitized solar cells : Jiahao Guo, Yantao Shi*, Yuting Chu and Tingli Ma* : Chem. Commun., 2013, 49, 10157-10159.(IF:6.378)

  5. Cost-effective and morphology-controllable niobium diselenides for highly efficient counter electrodes of dye-sensitized solar cells : Jiahao Guo, Yantao Shi*, Chao Zhu, Lin Wang, Ning Wang and Tingli Ma* : J. Mater. Chem. A, 2013, 1: 11874. (IF:6.101)

  6. Economical, green and dual-function pyridyl iodides as electrolyte components for high efficiency dye-sensitized solar cells : Hong Zhang, Yantao Shi*, Liang Wang, Chaolei Wang, Huawei Zhou, Wei Guo and Tingli Ma* : Chem. Commun., 2013, 49(79):9003-9005.(IF:6.37)

  7. Solid-State Synthesis of ZnO Nanostructures for Quasi-Solid Dye-Sensitized Solar Cells with High Efficiencies up to 6.46% : Yantao Shi*, Kai Wang , Yi Du , Hong Zhang , Junfu Gu , Chao Zhu , Lin Wang , Wei Guo , Anders Hagfeldt , Ning Wang , and Tingli Ma* : Adv Mater., 2013, 25(32):4413-4419.(IF:14.829))

  8. Notable catalytic activity of oxygen-vacancy-rich WO2.72 nanorod bundles as counter electrodes for dye-sensitized solar cells : Huawei Zhou, Yantao Shi*, Liang Wang, Hong Zhang, Chunyu Zhao, Anders Hagfeldtb and Tingli Ma* : Chem. Commun. 2013, 49, 7626-7628.(IF:6.378)

  9. First Application of Bis(oxalate)borate Ionic Liquids (ILBOBs) in High- Performance Dye-sensitized Solar Cells : Liang Wang, Hong Zhang, Rile Ge, Chaolei Wang, Wei Guo, Yantao Shi, Yanan Gao* and Tingli Ma* : RSC Adv., 2013, 3(31):12975.(IF:2.562)

  10. Ultrarapid Sonochemical Synthesis of ZnO Hierarchical Structures: From Fundamental Research to High Efficiencies up to 6.42% for Quasi-Solid Dye-Sensitized Solar Cells : Yantao Shi, Chao Zhu, Lin Wang, Chunyu Zhao, Wei Li, Kwok Kwong Fung, Tingli Ma* : Anders Hagfeldt, Ning Wang* Chemistry of Materials, 2013, 25(6):1000-1012. (IF:8.238)

  11. Highly Efficient and Low Cost Pt-based Binary and Ternary Composite Catalysts as Counter Electrode for Dye-Sensitized Solar Cells : Yudi Wang, Chunyu Zhao, Mngxing Wu, Wei Liu and Tingli Ma* : Electrochimica Acta, 2013, 105:671-676.(IF:3.777)

  12. Highly Stable Gel-State Dye-Sensitized Solar Cells Based on High Soluble Polyvinyl Acetate : Liang Wang, Hong Zhang, Chaolei Wang and Tingli Ma* : ACS Sustainable Chem. Eng., 2013, 1(2):205-208.

  13. Printable fabrication of Pt-and-ITO free counter electrode for all flexible quasi-solid dye-sensitized solar cells : Huawei Zhou, Yantao Shi* , Da Qin, Jiang An, Lingling Chu, Chaolei Wang, Yudi Wang, Wei Guo, Liang Wang and Tingli Ma* : J. Mater. Chem. A, 2013, 1(2):205-208.(IF:6.101)

  14. Printable electrolytes for highly efficient quasi-solid-state dye-sensitized solar cells : Chaolei Wang, Liang Wang, Yantao Shi, Hong Zhang and Tingli Ma* : Electrochimica Acta, 2013, 91:302-306

  15. A new type of lowcost counter electrode catalyst based on platinum nanoparticles loaded onto silicon carbide (Pt/SiC) for dye-sensitized solar cells : Sining Yun*, Liang Wang, Chunyu Zhao, Yanxiang Wang and Tingli Ma* : Phys. Chem. Chem. Phys., 2013, 15(12):4286-4290.(IF:3.829)

  16. Economical hafnium oxygen nitride binary/ternary nanocomposite counter electrode catalysts for high-efficiency dye-sensitized solar cells : Sining Yun*, Huawei Zhou, Liang Wang, Hong Zhang and Tingli Ma* : J. Mater. Chem. A, 2013, 1(4):1341.(IF:6.101)

  17. Pt-like Behavior of High-Performance Counter Electrodes Prepared from Binary Tantalum Compounds Showing High Electrocatalytic Activity for Dye-Sensitized Solar Cells : Sining Yun*, Mingxing Wu, Yudi Wang, Jing Shi, Xiao Lin, Prof. Anders Hagfeldt and Tingli Ma* : ChemSusChem., 2013, 6(3):411-416. (IF:7.475)

International Conference 2013

  1. Tingli Ma*,et al, Long-term stability of low-cost dye-sensitized solar cells prepared by all screen-printing method, PVSEC-23, 2013, Taiwan

  2. Tingli Ma*,et al, Dye-sensitized Solar Cells from Fundamental Research to Application POEM (International Photonics and OptoElectronics Meetings) 2013, May 24-27,2013 ,WuHan China

  3. Tingli Ma*,et al, Pt-free Catalysts Used as Counter Electrodes in Solar Cell. SISF (International Solar Forum)2013, 2013, Seoul, Korea

  4. Tingli Ma*,et al, Dye-sensitized Solar Cells from Fundamental Research to Application. Tingli Ma,PASEC-2(Photocatalysis and Solar Energy Conversion: Development of Materials and -Nanomaterials ) 2013 Japan

  5. Tingli Ma*,et al High Efficiency and Low Cost Dye-sensitized Solar Cells. Tingli Ma, Proceedings of International Conference on Green Energy and Technology(ICGET) 2013,Japan

研究業績 2012年

Publication 2012

  1. An Autocatalytic Factor in the Loss of Efficiency in Dye-Sensitized Solar Cells.
    Mingxing Wu, Yudi Wang, Xiao Lin, Anders Hagfeldt and Tingli Ma*
    ChemCatChem. 2012, 4,1255-1258.

  2. Transparent Flexible Pt Counter Electrodes for High Performance Dye-Sensitized Solar Cells.
    Yudi Wang, Chunyu Zhao, Da Qin, Mingxing Wu, Wei Liu, Tingli Ma*
    J. Mater. Chem. 2012, 22, 22155-22159.

  3. Enhanced Photoconversion Efficiency of All-Flexible Dye-Sensitized Solar Cells Based on a Ti Substrate with TiO2 Nanoforest Underlayer.
    Jiang An, Wei Guo, Tingli Ma*
    SMALL. 2012, 8, 22, 3427?3431.

  4. Optimization of the Performance of Dye-Sensitized Solar Cells Based on Pt-Like TiC Counter Electrodes : Yudi Wang, Mingxing Wu, Xiao Lin, Anders Hagfeldt, Tingli Ma* : European Journal of Inorganic Chemistry. 2012, 22, 3557-3561.

  5. Highly efficient catalysts for Co(II/III) redox couples in dye-sensitized solar cells : Liang Wang , Eric Wei-Guang Diau , Mingxing Wu , Hsueh-Pei Lu and Tingli Ma* : Chem. Commun. 2012, 48, 2600-2602.

  6. Improvement of adhesion of Pt-free counter electrodes for low-cost dye-sensitized solar cells : Yurong Gao, Lingling Chu, Mingxing Wu, Linlin Wang, Wei Guo and Tingli Ma* : Journal of Photochemistry and Photobiology A:Chemistry. 2012, 245, 66-71.

  7. Fabrication and Application of a Carbon Counter Electrode with Excellent Adhesion Properties for Dye-Sensitized Solar Cells : Ling-Ling CHU, Yu-Rong GAO, Ming-Xing WU, Lin-Lin WANG, Tingli Ma* : Acta Phys. Chim. Sin., 2012, 28(07): 1739-1744.

  8. Highly efficient inorganic?organic heterojunction solar cells based on SnS-sensitized spherical TiO2 electrodes : Wei Guo, Yihua Shen, Mingxing Wu and Tingli Ma* : Chem. Commun. 2012, 48, 6133-6135.

  9. SnS-Quantum Dot Solar Cells Using Novel TiC Counter Electrode and Organic Redox Couples : Wei Guo, Yihua Shen, Mingxing Wu, LinLin Wang and Tingli Ma* : Chemistry - A European Journal. 2012, 18, 7862-7868.

  10. High-performance phosphide/carbon counter electrode for both iodide and organic redox couples in dye-sensitized solar cells : Mingxing Wu, Jin Bai, Yudi Wang, Anjie Wang, Xiao Lin, Liang Wang, Yihua Shen, Zeqing Wang, Anders Hagfeldt and Tingli Ma*: J. Mater. Chem. 2012, 22, 11121-11127.

  11. Economical Pt-Free Catalysts for Counter Electrodes of Dye-Sensitized Solar Cells : Mingxing Wu, Xiao Lin, Yudi Wang, Tingli Ma, et al. Tingli Ma* : J. Am. Chem. Soc., 2012, 134.3419-342.

  12. Pt-free Catalysts Used as Counter Electrodes in Dye-sensitized Solar Cells : Mingxing Wu, Tingli Ma* : ChemSusChem, 2012, DOI: 10.1002/cssc.201100676.

  13. Several Highly Efficient Catalysts for Pt-free and FTO-free Counter Electrodes of Dye-Sensitized Solar Cells : Yudi Wang, Mingxing Wu, Xiao Lin, Tingli Ma* : J. Mater. Chem. 2012, 22, 4009-4014.

International Conference 2012

  1. Tingli Ma,et al Enhanced Photoconversion Efficiency of All-Flexible Dye-Sensitized Solar Cells Based on a Ti Substrate with TiO2 Nanoforest Underlayer. 19th International Conference on Photochemical Conversion and Storage of Solar Energy(IPS-19)2012, USA

  2. Tingli Ma,et al Hybrid Dye-sensitized Solar Cell based on dyes of Porphyrins and Phthalocyanines. 7th International Conference on Porphyrins and Phthalocyanines (ICPP-7)2012,Korea

  3. Tingli Ma High Efficiency and Low Cost Dye-sensitized Solar Cells. International Conference on Functional Organic Materials and Related Devices. 2012,Taiwan