研究方向:有机/聚合物光电功能材料的设计及应用,包括在聚合物/钙钛矿太阳电池、光电探测等领域的应用。
办公邮箱:tjia@gpnu.edu.cn
个人简介:
广东技术师范大学光电工程学院副教授,研究生导师。主要从事有机光电功能材料与器件领域研究,发表SCI论文70余篇。近5年,以第一作者或通讯作者在Nature Communications,Joule, Advanced Materials, Angewandte Chemie International Edition, Energy Environmental Science, Advanced Energy Materials, Advanced Functional Materials等高影响力期刊发表文章20余篇,有多篇高被引论文,被引2400余次。作为主要参与人,获得2023年度广东省科学技术奖自然科学一等奖。主持国家自然科学基金青年基金一项。作为项目骨干参与国家自然科学基金国际重大交流项目一项。指导学生参加“挑战杯”广东大学生创业计划竞赛获奖,国家级大学生创新训练计划项目立项等。
教育背景:华南理工大学博士学位
主讲课程:《线性代数》《C语言程序设计》《专业概论》
代表性科研项目:
1.国家自然科学基金委/青年基金,共轭金属聚合物受体材料的合成及其在全聚合物太阳电池的应用,2018/1-2021/12,29.8万,主持。
2.广东技术师范大学博士启动项目,高效有机光伏材料的设计、合成及其在聚合物太阳电池的应用,2022/1-2025/12,35万,主持。
代表性科研成果:
1.高效高分子太阳电池材料的分子设计及聚集态调控 2023年广东省科学技术奖自然科学奖(省级,一等奖)
代表性论文:
[1]T. Jia, J. Zhang, W. Zhong, Y. Liang, K. Zhang, S. Dong, L. Ying, F. Liu, X. Wang, F. Huang, Y. Cao, 14.4% efficiency all-polymer solar cell with broad absorption and low energy loss enabled by a novel polymer acceptor, Nano Energy 2020, 72, 104718.
[2]T. Jia, T. Lin, L. Wu, Z. Zhang, Y. Hai, Y. Luo, R. Ma,* Y. Li, S. Liu, J. Zhang, C. Liu, J. Chen, J. Wu,* S. Liu,* F. Huang, A Dendritic Hexamer Acceptor Enables 19.4% Efficiency with Exceptional Stability in Organic Solar Cells, Nat. Commun. 2025, 16, 871.
[3] T. Lin, Y. Hai, Y. Luo, L. Feng, T. Jia,* J. Wu,* R. Ma, T. A. Dela Peña, Y. Li, Z. Xing, M. Li, M. Wang, B. Xiao,* K. S. Wong, S. Liu,* G. Li, Adv. Mater. 2024, 36, 2312311. (通讯作者)
[4] T. Jia, Y. Hai, Y. Luo, T. Lin, X. Qin, R. Ma,* K. Fan, S. A. Aleksandr, T. A. Dela Peña, Y. Li, M. Li, K. S. Wong, G. Li, J. Wu,* S. Liu,* F. Huang, Naphtho[1,2-c:5,6-c′]bis([1,2,3]thiadiazole) enables the design of efficient halogen-free polymer donors and fabrication of organic solar cells with >19% efficiency, Energy Environ. Sci. 2024, 17, 8593-8608.
[5] H. Cai, Q. Zhu, T. Pan, L. Wu, X. Gu, C. Duan, L. Xiong, J. Wu, S. Liu, L.Yu, R. Li, K. Yan, R. Ma, S. Liu, T. Jia,* G. Li*, Symmetry-Breaking Strategy Yields Dopant-Free Small Molecule Hole Transport Materials for Inorganic Perovskite Solar Cells with 20.58% Efficiency and Outstanding Stability, Angew. Chem. Int. Ed., DOI: 10.1002/anie.202502478. (通讯作者)
[6] J. Zhang, Q. Huang, K. Zhang,* T. Jia,* J. Jing, Y. Chen, Y. Li, Y. Chen, X. Lu, H. Wu, F. Huang,* Y. Cao, Energy Environ. Sci., 2022, 15, 4561. (通讯作者)
[7] J. Zhang, C.-H. Tan, K. Zhang,* T. Jia,* Y. Cui, W. Deng, X. Liao, H. Wu, Q. Xu, F. Huang,* Y. Cao,π-Extended Conjugated Polymer Acceptor Containing Thienylene–Vinylene–Thienylene Unit for High-Performance Thick-Film All-Polymer Solar Cells with Superior Long-Term Stability, Adv. Energy Mater., 2021, 11, 2102559. (通讯作者)
[8] J. Zhang, Q. Zhou, J. Xie, J. Zhao, J. Yu, K. Zhang,* T. Jia,* F. Huang,* Y. Cao, Ternary Strategy Enables Non-Halogenated Solvent-Processed All-Polymer Solar Cells with High Efficiency Over 18%, Adv. Funct. Mater., 2024, 34, 2313722. (通讯作者)
[9] R. Chen,. H. Wang,. S. Yuan,. T. Jia,* Y. Luo,. T. Lin, Y. Xu, Q. Li, Y. Li, B. Xiao, R. Ma, J. Wu, Y. Cai, S. Liu,* F. Huang, Modulated Aggregation on Terpolymer Towards 19.2% Green Solvent Processed Binary Organic Solar Cells, Nano Energy, 2025, 134, 110576. (通讯作者)
[10] Q. Li, X. Liao, Z. Yang, S. Zhang, R. Chen, L. Wang, X. Zhan, S. Yuan, T. Jia,* Y. Meng, Y. Cai, H. Zhu, Y. Fu., G. Cai, S. Liu,* Nano Energy 2024, 129, 110067. (通讯作者)
[11] Y. Meng, L. Tang, M. Xiao,* W. Zhou, N. Li, J. Jia,* W. Su, Z. Bi, B. Fan, Jen, A. K. -Y. Jen, W. Ma, Q. Fan,* Efficient All-Polymer Solar Cells Enabled by a Novel Medium Bandgap Guest Acceptor, Chin. J. Chem., 2024, 42, 3559-3566. (通讯作者)
[12] T. Jia, J. Zhang, H. Tang, J. Jia, K. Zhang, W. Deng, S. Dong, F. Huang, Synchronously regulating the alkyl side-chain and regioisomer of polymerized small molecule acceptor enabling highly efficient all-polymer solar cells processed with non-halogenated solvent, Chem. Eng. J., 2022, 433, 133575.
[13] T. Zhong, F. Guo, S. Lei, B. Xiao,* Q. Li, T. Jia,* X. Wang, R. Yang,* Multi-scale mechanical properties of bulk-heterojunction films in polymer solar cells,npj Flex. Electron., 2023, 7, 2. (通讯作者)
[14] Y. Meng, Y. Yuan, Z. Xu, D. Lin, L. Wu, S. Yuan, Z. Cao, Q. Li,* B. Xiao, T. Jia,*Y.-P. Cai, S. Liu,* and F. Huang, Highly Efficient Non-Halogen Solvent Processed Ternary All-Polymer Solar Cells Enabled by Trace Amounts of a Compatible Third Component, Chem. Eng. J., 2025, Accepted. (通讯作者)
[15] T. Jia, J. Zhang, K. Zhang, H. Tang, S. Dong, C.-H. Tan, X. Wang, F. Huang, All-polymer solar cells with efficiency approaching 16% enabled using a dithieno[3′,2′:3,4;2′′,3′′:5,6]benzo[1,2-c][1,2,5]thiadiazole (fDTBT)-based polymer donor, J. Mater. Chem. A 2021, 9, 8975.
[16] T. Jia, J. Zhang, G. Zhang, C. Liu, H. Tang, K. Zhang, F. Huang, Rationally regulating the terminal unit and copolymerization spacer of polymerized small-molecule acceptors for all-polymer solar cells with high open-circuit voltage over 1.10 V, J. Mater. Chem. A 2022, 10, 15932.
[17] T. Jia, C. Sun, R. Xu, Z. Chen, Q. Yin, Y. Jin, H.-L. Yip, F. Huang, Y. Cao, Naphthalene Diimide Based n-Type Conjugated Polymers as Efficient Cathode Interfacial Materials for Polymer and Perovskite Solar Cells, ACS Appl. Mater. Interfaces 2017, 9, 36070.
[18] T. Jia, N. N. Zheng, W. Q. Cai, J. Zhang, L. Ying, F. Huang, Y. Cao, Microwave-assisted one-pot three-component polymerization of alkynes, aldehydes and amines toward amino-functionalized optoelectronic polymers, Chin. J. Polym. Sci. 2017, 35, 269.
[19] T. Jia, J. Zhang, D. Yuan, Z. Chen, C. Liu, S. Chen, Q. Xue, K. Zhang, F. Huang, A facile depolymerization reaction enables efficient feedstock recycling of polymerized small molecule acceptors in all-polymer solar cells, Polym. Chem. 2022, 13, 6091.
[20] T. Jia, Z. Li, L. Ying, J. Jia, B. Fan, W. Zhong, F. Pan, P. He, J. Chen, F. Huang, Asymmetric Alkyl Side‐Chain Engineering of Naphthalene Diimide‐Based n‐Type Polymers for Efficient All‐Polymer Solar Cells, Y. Cao, Macromol. Rapid Commun. 2018, 39, 1700765.
[21] S. Zhang, Y. Meng, T. Lin, Y. Su, S. Yuan, Q. Li,* B. Xiao, R. Chen, T. Jia,* X. Qi, Y.-P. Cai, S. Liu, Impact of End-Group Chlorination on Charge Generation and Recombination Patterns in Organic Solar Cells with Wide-Band-Gap Acceptors., ACS Appl. Energy Mater., 2024, 7, 8894. (通讯作者)
[22] R. Li, X. Zhang, M. Dong, C.-X. Cui, W. Zhang, J.-C. Wang,* K. Zhang, T. Jia,* H.-Y. Niu,* F. Huang, Two asymmetric small molecule acceptors with aromatic and non-aromatic ring side chains were developed for organic solar cells, Dyes Pigments 2023, 209, 110908. (通讯作者)
[23] J. Zeng, C. Jin, L. Shao, C. Li, R. Li, B. Fan, A. K. Y. Jen, L. Xiong, S. Zhang, Y. Lv, T. Jia,* M. Xiao,* R. Xie,* Introducing thiazole units into small-molecule acceptors for efficient non-fullerene organic solar cells, Dyes Pigments 2023, 220, 111770. (通讯作者)
[24] T. Jia, N. Zheng, W. Cai, L. Ying, F. Huang, Naphthalene diimide-based polymers consisting of amino alkyl side groups: three-component one-pot polymerization and their application in polymer solar cells, Acta Chim. Sinica 2017, 75, 808.
[25] T. Jia, Z. Peng, Q. Li, Y. Xie, Q. Hou, L. Hou, Synthesis of triphenylamine-based molecules with cyan terminals and their application for organic solar cells, Synth. Met. 2015, 199, 14.
[26] T. Jia, Z. Peng, Q. Li, T. Zhu, Q. Hou, L. Hou, Synthesis of four-armed triphenylamine-based molecules and their applications in organic solar cell, New J. Chem. 2015, 39, 994.
[27] S. Dong, T. Jia, K. Zhang, J. Jing, F. Huang, Joule 2020, 4, 2004. (共同第一作者论文)
[28]W. Zhou, T. Jia , D. Zhang, Z. Zheng, W. Hong, X. Chen, Appl. Catal. B: Environ. 2019, 259, 118067. (共同第一作者论文)
[29] S. Chen, L. Feng, T. Jia, J. Jing, Z. Hu, K. Zhang, F. Huang, Sci. China Chem. 2021, 64, 1192. (共同第一作者论文)
[30] Q. Li, T. Jia, L.-M. Wang, S. Liu, X. Liao, Z. Cao, J. Zhang, X. Zhan, T. Zhu, Y.-P. Cai, F. Huang, J. Mater. Chem. A 2022, 10, 10880. (共同第一作者论文)
[31] L. Zhang, T. Jia, L. Pan, B. Wu, Z. Wang, K. Gao, F. Liu, C. Duan, F. Huang, Y. Cao, J. Mater. Chem. A 2021, 64, 408. (共同第一作者论文)
[32] G. Liu, T. Jia, K. Zhang, J. Jia, Q. Yin, W. Zhong, X. e. Jia, N. Zheng, L. Ying, F. Huang, Y. Cao, Chem. Mater. 2020, 32, 1022. (共同第一作者论文)
[33] J. Zhang, T. Jia, C.-H. Tan, K. Zhang, M. Ren, S. Dong, Q. Xu, F. Huang, Y. Cao, Solar RRL 2021, 5, 2100076. (共同第一作者论文)
[34] Y. Liang, D. Zhang, Z. Wu, T. Jia, L. Lüer, H. Tang, L. Hong, J. Zhang, K. Zhang, C. J. Brabec, N. Li, F. Huang, Nat. Energy 2022, 7, 1180.
[35] W. Zhou, T. Jia, H. Shi, D. Yu, W. Hong, X. Chen, J. Mater. Chem. A 2019, 7, 303.
[36] J. Jia, Q. Huang, T. Jia, K. Zhang, J. Zhang, J. Miao, F. Huang, C. Yang, Adv. Energy Mater. 2022, 12, 2103193.
[37] S. Dong, K. Zhang, T. Jia, W. Zhong, X. Wang, F. Huang, Y. Cao, EcoMat 2019, 1, e12006.
[38] B. He, Q. Yin, J. Zhang, T. Jia, X. Yang, X.-F. Jiang, F. Huang, Y. Cao, Chin. J. Chem. 2018, 36, 406.
[39] Y. Dou, L. Hong, J. Jing, T. Jia, J. Zhang, K. Zhang, F. Huang, Solar RRL 2023, 7, 2300599.
[40] Z. Zhong, S. Chen, J. Zhao, J. Xie, K. Zhang, T. Jia, C. Zhu, J. Jing, Y. Liang, L. Hong, S. Zhu, D. Ma, F. Huang, Adv. Energy Mater. 2023, 13, 2302273.
[41] L. Li, G. Liu, J. Zhang, Z. Wang, T. Jia, Y. Hu, C. Cao, K. Zhang, F. Huang, Y. Cao, J. Mater. Chem. C 2019, 7, 4709.
[42] J. Jia, G. Liu, T. Jia, Z. Wang, K. Lin, Y. Li, F. Huang, Y. Cao, Org. Electron. 2019, 68, 151.
[43] B. He, Z. Li, T. Jia, J. Xin, L. Ying, W. Ma, F. Huang, Y. Cao, Dyes Pigments 2018, 159, 85.
[44] C.-H. Tan, J. Zhang, T. Jia, W. Deng, Q. Wei, J. Zhang, H. Wu, Q. Xu, J. A. Röhr, F. Huang, Y. Ma, Y. Cao, J. Phys. Chem. C 2023, 127, 12135.
[45] Z. Cao, J. Chen, S. Liu, M. Qin, T. Jia, J. Zhao, Q. Li, L. Ying, Y.-P. Cai, X. Lu, F. Huang, Y. Cao, Chem. Mater. 2019, 31, 8533.
[46] G. Liu, R. Xia, Q. Huang, K. Zhang, Z. Hu, T. Jia, X. Liu, H.-L. Yip, F. Huang, Adv. Funct. Mater. 2021, 31, 2103283.
[47] J. Jia, B. Fan, M. Xiao, T. Jia, Y. Jin, Y. Li, F. Huang, Y. Cao, Macromolecules 2018, 51, 2195.
[48] M. Xiao, Y. Meng, L. Tang, P. Li, L. Tang, W. Zhang, B. Hu, F. Yi, T. Jia, J. Cao, C. Xu, G. Lu, X. Hao, W. Ma, Q. Fan, Adv. Funct. Mater. 2024, 34, 2311216.
[49] T. A. Dela Peña, R. Ma, Y. Luo, Z. Xing, Q. Wei, Y. Hai, Y. Li, S. A. Garcia, K. L. Yeung, T. Jia, K. S. Wong, H. Yan, G. Li, M. Li, J. Wu, Adv. Energy Mater. 2024, 14, 2303169.
[50] L. Tu, H. Wang, W. Duan, R. Ma, T. Jia, T. A. Dela Peña, Y. Luo, J. Wu, M. Li, X. Xia, S. Wu, K. Chen, Y. Wu, Y. Huang, K. Yang, G. Li, Y. Shi, Energy Environ. Sci. 2024, 17, 3365-3374.
[51] X. Xie, R. Ma, Y. Luo, T. A. Dela Peña, P. W.-K. Fong, D. Luo, H. T. Chandran, T. Jia, M. Li, J. Wu, A. K. K. Kyaw, G. Li, Adv. Energy Mater., 2024, 2401355.
[52] Y. Li, R. A. Pacalaj, Y. Luo, K. Ai, Y. Hai, S. Liang, K. Fan, A. A. Sergeev, R. Ma, T. A. Dela Peña, J. S. Müller, Z. Jin, P. S. Tuladhar, T. Jia, J. Wang, G. Li, K. S. Wong, W. Li, J. R. Durrant, J. Wu, Adv. Mater., 2024, 2409212.
[53] J. Zeng, L. Wu, Z. Ren, B. Fan, X. Zheng, R. Li, T. Jia, Y. Lv, L. Xiong, S. Zhang, Z. He, R. Xie, ACS Appl. Energy Mater. 2024, 7, 6177-6186.
[54] R. Lin, Z. Luo, Y. Wang, J. Wu, T. Jia, W. Zhang, X. Gu, Y. Liu, L. Xiao, Y. Min, Chem. Eng. J., 2025, 503, 158635.
主要授权发明专利:
1.基于五元或七元芳香稠环的聚合物及其在有机光电器件中的应CN201910979949.3,发明专利,2020/01/31 (授权)
2.基于多元稠环结构的多元共聚物及其在有机光电器件中的应用CN110862518B,发明专利,2021/05/14 (授权)
