杜天,四川大学材料科学与工程学院特聘研究员,入选国家海外引才专项、四川大学双百人才工程。2025年回国组建“光伏器件先进诊断技术”课题组,致力于搭建高通量测试与智能分析深度融合的研究平台,为新兴光伏(如钙钛矿)的量产产线提供过程监控、问题溯源与性能预测的能力,推动光伏制造向数据驱动的智能化模式演进。
近年来围绕钙钛矿太阳能电池量产化的关键技术开展研究,在相关领域以第一/通讯(含共同)作者在Joule(2篇)、Adv. Mater.、Energy Environ. Sci.(3篇)、Adv. Energy Mater.(3篇)等期刊发表论文20余篇,主持德国科学基金会(DFG)和欧洲光伏企业资助科研项目。课题组与帝国理工学院、伦敦大学学院、德国于利希研究中心等多所国际顶尖机构建立了稳定的人员交流与科研合作机制。
教育经历
2015–2020 帝国理工学院 博士(合作导师:Martyn McLachlan, James Durrant)
2014–2015 帝国理工学院 硕士
2009–2013 北京航空航天大学 学士
工作经历
2025–今 四川大学 特聘研究员
2023–2025 德国于利希研究中心 研究员、课题组组长
2021–2023 德国埃尔朗根-纽伦堡大学 博士后研究员(合作导师:Christoph Brabec)
2021–2021 帝国理工学院&玛丽女王大学 博士后研究员(合作导师:Joe Briscoe)
研究方向
先进光谱技术的多模态联用与智能解析
高通量数据生成与关联挖掘
器件制造与运维的数字孪生
面向量产的印刷电子技术
代表性论文
1. Du, T.*, Dag, H. U., Peng, Z., Englhard, J., Barabash, A., Zhang, H., ... & Brabec, C. J. (2025). Enhancing the viability of pin perovskite solar cells with printable carbon cathode: Origin of polarity inversion. Joule, 10, 102224.
2. Du, T.*, Qiu, S., Zhou, X., Le Corre, V. M., Wu, M., Dong, L., ... & Egelhaaf, H. J. (2023). Efficient, stable, and fully printed carbon-electrode perovskite solar cells enabled by hole-transporting bilayers. Joule, 7(8), 1920-1937.
3. Du, T.*, Macdonald, T. J., Yang, R. X., Li, M., Jiang, Z., Mohan, L., ... & Briscoe, J. (2022). Additive‐free, Low‐temperature Crystallization of Stable α‐FAPbI3 Perovskite. Advanced Materials, 34(9), 2107850.
4. Du, T., Ratnasingham, S. R., Kosasih, F. U., Macdonald, T. J., Mohan, L., Augurio, A., ... & McLachlan, M. A. (2021). Aerosol Assisted Solvent Treatment: A Universal Method for Performance and Stability Enhancements in Perovskite Solar Cells. Advanced Energy Materials, 11(33), 2101420.
5. Du, T.*, Richheimer, F., Frohna, K., Gasparini, N., Mohan, L., Min, G., … Stranks, S.D., Wood, S., McLachlan, M.A., & Briscoe, J. (2022). Overcoming Nanoscale Inhomogeneities in Thin-film Perovskites via Exceptional Post-Annealing Grain Growth for Enhanced Photodetection. Nano Letters, 22(3), 979–988.
6. Du, T., Rehm, V., Qiu, S., Pal, S., Jang, D., Peng, Z., ... & Egelhaaf, H. J. (2024). Precursor‐Engineered Volatile Inks Enable Reliable Blade‐Coating of Cesium–Formamidinium Perovskites Toward Fully Printed Solar Modules. Advanced Science, 2401783.
7. Qiu, S., Majewski, M., Dong, L., Distler, A., Li, C., Forberich, K., ... Du, T. *, Egelhaaf, H. J., & Brabec, C. J.* (2025). Over one-micron-thick void-free perovskite layers enable highly efficient and fully printed solar cells. Energy & Environmental Science, 18(12), 5926-5939.
8. Dong, L., Qiu, S., Feroze, S., Wagner, M., Kasian, O., Peisert, H., ... Du, T.*, Brabec, C. J. *, & Egelhaaf, H. J. (2024). Simplifying contact-layer design for high-throughput printing of flexible perovskite photovoltaics. Energy & Environmental Science, 17(19), 7147-7154.
9. Dong, L., Qiu, S., Cerrillo, J. G., Wagner, M., Kasian, O., Feroze, S., ... Du, T.*, Yang, F., Brabec, C. J. *, & Egelhaaf, H. J. (2024). Fully printed flexible perovskite solar modules with improved energy alignment by tin oxide surface modification. Energy & Environmental Science, 17(19), 7097-7106.
10. Qiu, S., Majewski, M., Dong, L., Jang, D., Corre, V. M. L., Cerrillo, J. G., ... Du, T.*, Brabec, C. J. * & Egelhaaf, H. J. (2024). In Situ Probing the Crystallization Kinetics in Gas‐Quenching‐Assisted Coating of Perovskite Films. Advanced Energy Materials, 14, 2303210.
11. Qiu, S., Dong, L., Jang, D., Yang, F., Cerrillo, J. G., Li, C., ... Du, T.*, Brabec, C. J.* & Egelhaaf, H. J. (2024). Printing High‐Quality Formanidinum Lead Triiodide Films: Understanding the Critical Role of α‐Phase Nucleation Before Thermal Annealing. Advanced Energy Materials, 14(48), 2402616.
12. Du, T., Kim, J., Ngiam, J., Xu, S., Barnes, P. R., Durrant, J. R., & McLachlan, M. A. (2018). Elucidating the Origins of Subgap Tail States and Open‐Circuit Voltage in Methylammonium Lead Triiodide Perovskite Solar Cells. Advanced Functional Materials, 28(32), 1801808.
13. Du, T., Burgess, C. H., Lin, C. T., Eisner, F., Kim, J., Xu, S., ... & McLachlan, M. A. (2018). Probing and Controlling Intragrain Crystallinity for Improved Low Temperature–Processed Perovskite Solar Cells. Advanced Functional Materials, 28(51), 1803943.
Google Scholar: https://scholar.google.com/citations?user=cFSdB-MAAAAJ&hl=zh-CN
ORCID: https://orcid.org/my-orcid?orcid=0000-0002-0566-1145
