一、基本情况

谭海军，男，汉族，1983年2月生于湖南涟源；博士、教授，博士生导师。主要从事科研领域：1.高性能太阳能电池材料与器件（钙钛矿、敏化）；2.污染物处置与固废综合利用（多孔材料制备与污染物处置，赤泥、钢渣、蔗渣等工业与农林废弃物高值化利用）；3.广西关键金属新材料开发与产业化（高性能稀土铝合金材料）。

二、学习与工作经历

2014.02-今  桂林理工大学，化学与生物工程学院；

2022.09-2023.02  广西科技厅社会发展与科技安全处，创新办(挂职)；

2022.03-2022.08 华东理工大学化学与分子工程学院，访问学者；

（合作导师：朱为宏（院士）、吴永真（杰青））

2018.01-2018.06 中铝广西有色稀土开发有限公司，科技部(挂职)；

2009.09-2013.12 中南大学化学，化工学院，应用化学，博士；

2006.09-2009.06 中南大学化学，化工学院，有机化学，硕士；

2002.09-2006.06 湖南农业大学，理学院，应用化学，本科；     

三、所获奖项及相关社会任职

1.2025年获广西科学技术奖“科技进步一等奖”（第2）：高性能稀土铝合金材料制备关键技术与产业化；

2.2020年入选广西“千骨”计划；

3.2024年桂林理工大学“优秀研究生导师”；

四、教学工作

主讲本科生课程：《无机化学》、《有机化学》等课程；

主讲研究生课程：《工程伦理》、《化学文献及检索》等课程；

主持完成广西教育厅研究生教改项目1项，校级教改项目3项，发表教改论文5篇；出版十三五规划教材1部《有机化学实验与安全》。桂林理工大学“学生课外科技创新园丁先进个人”(2020、2024)；桂林理工大学“创新创业导师”(2024)；指导学生获中国国际“互联网+”大学生创新创业大赛广西区“银奖”(2020)，“铜奖”（2024）；挑战杯“铜奖”（2024）。

五、科研项目

1.主持国家自然科学基金，地区项目，新型氮杂蒽类染料的制备及其光伏与光解水性能研究及构效关系（21663010），2017/01-2020/12，结题，主持。

2.广西自然科学基金：

（1）重点项目，基于双面铂电极的高效叠层太阳能电池策略与机制研究（2024GXNSFDA010030），2024/05-2028/04，在研，主持；

（2）青年项目，D-π-A型吩噁嗪类染料分子的设计合成与光伏性能研究（2015GXNSFBA139029），2015/09-2018/08，结题，主持。

3.广西赋能计划（重点研发）项目：

（1）钛白副产硫酸亚铁制备电池级磷酸铁及废水零排放关键技术与工程示范课题（桂科AB21220007），2022-2024，结题，主持；

（2）漓江流域岩溶石漠化区土地提质增效关键技术研究与示范课题（桂科AB24010051）2024-2027，在研，主持；

（3）广西典型石漠化地区“光伏+”生态修复关键技术研究与应用示范课题（桂科AB25069143），2025-2028，在研，主持；

（4）广西典型金属矿区历史遗留固体废物原位微生物管控关键技术研发与应用示范（桂科FN2600640027），2024-2027，在研，主持。

4. 广西协同计划（中央引导地方专项）项目：

（1）珍珠型“雨”石墨高强高韧球墨铸铁关键技术研究及产业化课题（桂科ZY24212037），2024-2027，在研，主持；

（2）赤泥尾矿用于冶金球团用新型粘结剂制备与产业化课题（桂科XT2600870004），2026-2029，在研，主持。

5. 专利技术转让项目（H20240186，50万）：一种吩噁嗪基锌卟啉染料及其制备方法等三项专利技术转让。

六、近5年发表论文/授权专利

（一）光电子材料与器件方向（太阳能电池、荧光传感）

18. Songran Wang, Haijun Tan,Wei-Hong Zhu, Yongzhen Wu,*et al.

Enhancing Interfacial Contact of Hole-Collecting Monolayer via Coassembly with Multiped Triphenylamine for Mechanically Stable Inverted Perovskite Solar Cells, CCS Chem. 2025, DOI: 10.31635/ccschem.025.202506236.

17. Mengdan Yang, Jian Xiong,*Haijun Tan,*et al. Application of

functional group-modulated polymeric hole transport materials in inverted perovskite solar cells,Synthetic Metals, 319 (2026) 118138.

16. Qi Li, Weihao Li, Wenjun Wu*, Haijun Tan,* et al. Spectral complementarity of phenothiazine-based dyes with N719 and its application in double-sided Pt electrode tandem DSSCs, Dyes and Pigments.245 (2026) 113204.

15. Weihao Li , Qi Li , Yongzhen Wu*, Haijun Tan,* et al. Exploring the impact of side-chain fluorination on photon harvesting and surface wettability in inverted perovskite solar cells, Dyes and Pigments, 244 (2026) 113107.

14. Xiaoran Yan, Mengdan Yang, Yongzhen Wu*, Haijun Tan,* et al Optimizing buried interface quality in inverted perovskite solar cells by modulating the spatial orientation of polymer hole transport materials using rigid copolymer units, Dyes and Pigments, 236 (2025) 112676.

13.Tianxiang Zheng, Shucheng Huang, Ningbo Qin*, Haijun Tan*, et al. Molecular Engineering Strategies of Spectral Matching and Structure Optimization for Efficient Metal-Free Organic Dyes in Dye-Sensitized Solar Cells:A Theoretical Study, J. Phys. Chem. A, 2024, 128, 5861−5872.

12. Xiaoran Yan, Yin Liu, Wenjun Wu*, Haijun Tan,* et al. Novel Zinc-porphyrin dyes for dye-sensitized solar cells that enables light capture in the near-ultraviolet and visible range, Synthetic Metals, 307(2024)117653.

11. Zhiqiao Li, YinLiu, Yongzhen Wu*, Haijun Tan* et al. A Low-Cost and Non-Noble Metal Catalyst Synthesis of Phenothiazine-Based Polymer HTM for Efficient and Stable Perovskite Solar Cells, ACS Applied. Energy Materials, 2024, doi.org/10. 1021/acsaem.4c00348.

10. Shucheng Huang, Haijun Tan*, and Yongshu Xie*, et al. Recent advances in the approaches for improving the photovoltaic performance of porphyrin-based DSSCs, Chem Comm, 2024, DOI: 10.1039/d3cc06299f.

9. Songqing Shi, Shucheng Huang, Wenjun Wu*, Haijun Tan*, et al. The application of a novel D-A-π-A phenothiazine-based organic dye with N719 in efficient parallel tandem dye-sensitized solar cells, Synthetic Metals. 295 (2023) 117344.

8. Shu-Hua Zhang*, Zhen-Feng Wang, Haijun Tan*, et al. Novel zinc(II) curcumin molecular probes bearing berberine and jatrorrhizine derivatives as potential mitochondria-targeting anti-neoplastic drugs. European Journal of Medicinal Chemistry, 243 (2022) 114736.

7.Yin Liu, Zhiqiao Li, Wenjun Wu*, Haijun Tan*,et al. The performance of organic dyes in dye-sensitized solar cells: From theoretical calculation to experiment, Dyes and Pigments,222 (2024) 111846.

6. Shucheng Huang, Songqing Shi, Wenjun Wu*, Haijun Tan*, et al. A strategy for efficient parallel tandem dye-sensitized solar cells based on doubled-sided Pt electrode with a novel phenothiazine-based dye and N719. Dyes and Pigments 206 (2022) 110615.

5. Shucheng Huang, Wu Shao, Wenjun Wu*, Haijun Tan*, et al. The effect of conjugated groups for favourable molecular planarity and efficient suppression of charge recombination simultaneously of phenothiazine-based organic dyes for dye-sensitized solar cells, Synthetic Metals, 290 (2022) 117137. 

4. Shengzhong Li, Shuangyu Zhang, Haijun Tan*, et al, A Novel Porphyrin Dye with Phenoxazine as Donor Unit for Efficient Dye-Sensitized Solar Cells, Dyes and Pigments, 2021, 190 :109308.

3. Shengzhong Li, Shu Mei, Wenjun Wu*, Haijun Tan*, et al, A Molecular Engineering Strategy of Phenylamine-Based Zinc-Porphyrin Dyes for Dye-Sensitized Solar Cells: Synthesis,Characteristics, and Structure−Performance Relationships, ACS Applied. Energy Materials, 2021, 4, 9267−9275.

2. Shu Mei, Wenjun Wu*, and Haijun Tan*, et al, Novel D-A-π-A organic dyes with phenoxazine as donor unit for dye-sensitized solar cells: the effect of ethynyl group on the performance. Energy &Fuels, 2021, 35, 19748−19755.

1. Shengzhong Li, Jingwen He, Yongzhen Wu*, Haijun Tan*, et al, Comparative Studies on the Structure-Performance Relationships of Phenothiazine-Based Organic Dyes for Dye-sensitized Solar Cells, ACS Omega, 2021, 6, 6817−6823.

（二）多孔材料开发与污染物处置（水中金属离子、抗生素及农药检测与去除）

10. Jihao Li , Peipei Zhang, *Rongyang Fan, Ai-Yun Ni,* Haijun Tan*,et al. “Two-in-one” Luminescent MOFs/sodium alginate aerogel beads for sensitive detection of Al³⁺ and efficient enrichment of Pb²⁺ in water, Journal of Cleaner Production, 554 (2026) 148057

9. Jia Luo, Ao Zhou, Peipei Zhang,* Haijun Tan*, et al . A novel anthracene-scaffolded triazine-based porous organic polymer for efficient capture of iodine in gaseous and liquid phases, Microporous and Mesoporous Materials,399 (2026) 113836.

8. Yang Gu, Ruihan Tang, Jiawen Guo*, Peipei Zhang*, Haijun Tan*, et al.Eco-friendly spherical sugarcane bagasse biochar/sodium alginatemonolithic adsorbent: A rapid removal of nitrofurazone in the aqueous environment. Separation and Purification Technology,380 (2026) 135298.

7. Lu Wang, Peipei Zhang,* Haijun Tan*, et al . Magnetic iron-crosslinked sodium alginate modified sugarcane bagasse biochar for rapid and efficient removal of tetracycline hydrochloride in water, International Journal of Biological Macromolecules, 330 (2025) 148099

6. Ruihan Tang, Na Qiu, Peipei Zhang*, Haijun Tan,* et al. Bifunctional porous organic polymer: Selective detecting of Fe (III) ion andreversible capturing iodine, Journal of Industrial and Engineering Chemistry,2025, https://doi.org/10.1016/j.jiec.

5. Haijun Tan*, Yi Yang, Fuxin Zhong, Peipei Zhang*,et al. Novel N-rich porous organic polymers for reversible iodine capture and selective detecting of Fe (III), Microporous and Mesoporous Materials, 385 (2025) 113485.

4. Na Qiu, Fuxin Zhong*, Haijun Tan*, et al. Synthesis of phenothiazine-based porous organic polymer and its application to iodine adsorption, Microporous and Mesoporous Materials, 363 (2024) 112833.

3. Hongyu Wang, Na Qiu, Haijun Tan*, et al. Novel Carbazole-Based Porous Organic Polymer for Efficient Iodine Capture and Rhodamine B Adsorption. ACS Appl. Mater. Interfaces,2023, 15, 14846−14853.

2. Hongyu Wang, Fuxin Zhong*, Haijun Tan*. Phenothiazine-based porous organic polymers with high sensitivity and selective fluorescence response to mercury ions. Journal of Solid State Chemistry,315 (2022) 123522.

1. Yujie Zhang, Haijun Tan*, Shu-Hua Zhang*, et al. Studies on the removal of phosphate in water through adsorption using a novel Zn-MOF and its derived materials. Arabian Journal of Chemistry (2022) 15, 103955.

（三）金属材料（稀土及其合金材料）

6. Nian Li, Fubiao Ge, Shunyi Wu, Haijun Tan, Zhenguang Hu, Effect of La-Ce additions on microstructure and mechanical properties of cast Al-3Si-0.5Cu-0.7 Fe alloy with high thermal conductivity, Journal of Alloys and Compounds,1024 (2025) 180249.

5.庄秀梅,谭海军,秦文忠,陈　硕,胡振光,石墨消解-ICP-OES法同时测定赤泥中16种稀土元素[J]稀土,2024, 45(3),115-122.

4.吴顺意,葛富彪,甘培原,胡振光,黎永生,谭海军,La和Ce对铸造Al-7Si-0.6Cu-0.8Fe合金组织及性能的影响[J]特种铸造及有色合金,2023,43(04): 529-535.

3.葛富彪,胡振光,谭海军,甘培原,韦德仕,秦文忠,La和Ce对Al-3Si-0.5Cu-0.7Fe合金组织及性能的影响[J]特种铸造及有色合金.2022,42(04): 486-491.

2.庄秀梅,谭海军,秦文忠,陈硕,胡振光,ICP-OES法同时测定贫锰矿石中多元素的研究,中国测试.2021,47(10):75-79.

1.陈硕,李兵,谭海军,胡振光,庄秀梅,高压密闭消解—ICP-OES法同时测定赤泥中主、次量与痕量元素[J]现代化工,2021,41(05):241-244.

授权国家发明专利 

1.一种吩噻嗪基D-A-π-A型有机染料的制备方法, ZL 201810875776.6.

2.一种吩噁嗪基锌卟啉染料及其制备方法, ZL202011504309.6.

3.一种三吩噻嗪基锌卟啉染料及其制备方法，ZL 202011498077.8.

4.一种双吩噻嗪基锌卟啉染料及其制备方法，ZL202011498049.6.

5.一种基于联噻吩的三嗪聚合物及制备方法，ZL202410356635.9

七、联系方式：

通信地址：广西桂林市建干路12号，桂林理工大学化学与生物工程学院(541004)

E-mail：navytan@glut.edu.cn。