刘彬文，男，博士，研究员，博导。2010年本科毕业于湖南大学；2016年博士毕业于福建物质结构研究所；随后在“博士后创新人才计划”资助下进行博士后研究；2020年晋升为副研究员，遴选为硕士生导师；2024年晋升为研究员，遴选为博士生导师。研究工作主要专注于非线性光学材料的探索、晶体的生长和器件的研发。激光技术已成为当前国家国防能力的一个重要标志，非线性光学晶体是其中不可或缺的关键器件，通过理论、计算和实验来以获得高性能的非线性光学晶体、并制作成器件。以第一作者或共同通讯作者身份发表学术论文45篇，其中包括JACS、Angew.、Adv. Sci.、Mater. Horiz.、CCS Chemistry、Small、Chem. Sci.等国际知名期刊；拥有11项中国授权发明专利；期间，曾入选博士后创新人才支持计划、中国科学院青年创新促进会、福建省级高层次人才C等人才项目；卢嘉锡优秀毕业生奖；主持过多项科研项目，包括国家自然科学基金重大研究计划培育项目、面上项目、青年项目，中国科学院青年创新促进会项目，中国博士后科学基金，以及福建省自然科学基金项目等。

1. B-W Liu, X.-M. Jiang,* H.-Y. Zeng, and G.-C. Guo,* [ABa2Cl][Ga4S8] (A = Rb, Cs): Wide-Spectrum Nonlinear Optical Materials Obtained by Polycation-Substitution-Induced Nonlinear Optical (NLO)-Functional Motif Ordering. J. Am. Chem. Soc. 2020, 142, 10641−10645.

2. B-W Liu, X.-M. Jiang,* B.-X. Li, H.-Y. Zeng, G.-C. Guo,* Li[LiCs2Cl][Ga3S6]: A Nanoporous Framework of GaS4 Tetrahedra with Excellent Nonlinear Optical Performance. Angew. Chem. Int. Ed. 2020, 59, 4856–4859.

3. B.-W. Liu, X.-M. Jiang,* H.-Y. Zeng, and G.-C. Guo.* Phase Matching Achieved by Bandgap Widening in Infrared Nonlinear Optical Materials [ABa3Cl2][Ga5S10] (A = K, Rb, and Cs). CCS Chemistry. 2020, 2, 964 – 973.

4. W.-F. Chen, B.-W. Liu,* S.-M. Pei, X.-M. Jiang, and G.-C. Guo,* [K2PbX][Ga7S12] (X = Cl, Br, I): The First Lead-Containing Cationic Moieties with Ultrahigh Second-Harmonic Generation and Band Gaps Exceeding the Criterion of 2.33 eV, Adv. Sci. 2023, 2207630.

5. B.-W. Liu, X.-M. Jiang,* S.-M. Pei, W.-F. Chen, L.-Q. Yang and G.-C. Guo,* Balanced infrared nonlinear optical performance achieved by modulating the covalency and ionicity distributions in the electron localization function map. Mater. Horiz. 2021, 8, 3394–3398.

6. B.-W. Liu,# S.-M. Pei,# X.-M. Jiang,* and G.-C. Guo,* Broad Transparency and Wide Band Gap Achieved in Magnetic Infrared Nonlinear Optical Chalcogenide by Suppressing d-d Transitions. Mater. Horiz. 2022, 9, 1513.

7. S.-M. Pei, B.-W. Liu,* W.-F. Chen, X.-M. Jiang, and G.-C. Guo,* Breaking the bottleneck of simultaneously wide band gap and large nonlinear optical coefficient by a ‘‘pore reconstruction’’ strategy in a salt-inclusion chalcogenide. Mater. Horiz. 2023, 10, 2921-2926.

8. M.-S. Zhang, B.-W. Liu,* X.-M. Jiang, and G.-C. Guo,* Nonlinear Optical Sulfides LiMGa8S14 (M = Rb/Ba, Cs/Ba) Created by Li+ Driven 2D Centrosymmetric to 3D Noncentrosymmetric Transformation. Small 2023, 2302088.

9. L.-T. Jiang, Y.-B. Huang, S.-M. Pei, X.-M. Jiang, B.-W. Liu,* and Guo-Cong Guo,* Achieving Phase-Matching in Nonlinear Optical Materials CsM2In2S6 (M = Cd/In, Hg/In) by the Incorporation of Unprecedented Trigonal Planar MS3 Motifs. Small 2024, 2408085.

10. C.-H. Xie, X.-M. Jiang, B.-W. Liu,* and G.-C. Guo,* BaFS: Birefringence Enhanced by the Transformation from Optical Isotropy to Anisotropy via Interlayer Anion Substitution Small, 2024, 2409705.