江欣，博士，教授，基础化学教学与实验中心，毕业于吉林大学。

工作内容：教学科研

通讯地址：齐齐哈尔市文化大街42号化学与化学工程学院化学楼508室

电子邮件：02ytmm@163.com

研究领域：功能材料光谱学及生物药物传感

招生学科：分析化学/物理化学

教育及科研经历：

1996-2000年 黑龙江大学化学化工与材料学院 本科

2004-2007年 黑龙江大学化学化工与材料学院 硕士

2011-2015年 吉林大学化学学院 博士

2000-2022年 佳木斯大学药学院 教授 博士生导师/硕士生导师

2022年至今  齐齐哈尔大学化学与化学工程学院 教授 博士生导师/硕士生导师

荣誉和奖励

1. 黑龙江省一流本科课程《物理化学》课程负责人，黑龙江省高校首届青年教学能手。获得黑龙江省高等体球网,球探体育比分课程思政教学竞赛三等奖，校教学名师、“十佳教学奖”、“晨星教学奖”、“科技工作先进个人”等荣誉称号。

2. 江欣(3/5). 具有光催化降解性能的半导体SERS活性基底, 黑龙江省科学技术三等奖, 2017年

3. 江欣(3/5). 新型无机-有机杂多金属配合物材料的设计、合成与性质研究, 佳木斯市科技进步特等奖, 2008年

科研论文

1. X. Jiang, R. Wang, Y.M. Tang, W.J. Di, W.X. Wang, B. Zhao, L.B. Yang, Sulfur Vacancy-Rich MoS₂ Flower-Like Microsphere with Synchronously Tunable Electromagnetic and Chemical Effects for Boosting Semiconductor SERS, Adv. Funct. Mater. 2024, 2418412.

2. X. Jiang, H. Jiang, Y.M. Tang, R. Wang, W.X. Wang, L.B. Yang, B. Zhao, A novel g-C₃N₄/TiO₂ heterojunction for ultrasensitive detection of bisphenol A residues, Food Chemistry 2025, 465, 142123.

3. Y.M. Tang, S. He, X.W. Wang, B. Zhao, X. Jiang*, L.B. Yang, (001) facet-supported TiO₂ facet heterojunction with abundant active sites and high-efficiency carrier separation for ultrasensitive SERS detection of antibiotic residues in foods, Anal. Chim. Acta 2025, 1335, 343470.

4. H.Z. Zhang, S. He, X.W. Zhang, R. Wang, Y.M. Tang, L.B. Yang, X. Jiang*, B.J. Jiang, B. Zhao, Surface double defects-dominated TiO₂ with high liquid phase stability for smart SERS sensing of dye additives in foods, Spectrochim. Acta A 2025, 329, 125553.

5. Y.M. Tang, X.W. Zhang, R. Wang, H.Z. Zhang, L.B. Yang, X. Jiang*, B. Zhao, A TiO₂/ZnO (nanoparticle/quantum dot) heterojunction with strong interfacial coupling for ultrasensitive SERS sensing of antibiotic residues in environment (water and soil) and their efficient degradation. J. Environ. Chem. Eng. 2025, 13, 115287.

6. X. Jiang, K.W. Li, Y.M. Tang, X.W. Wang, W. Kan, L.B. Yang, B. Zhao, A double defects-dominated flexible TiO₂ matrix for in-situ SERS sensing of antibiotic residues in aquatic ecosystem (fish & fishpond water) and their on-site degradation in flowing water, Sci. Total Environ. 2024, 921, 171154.

7. H.Z. Zhang, Y.M. Tang, W.E. Wang, D.X. Yu, L.B. Yang, X. Jiang*, W. Song, B, Zhao, A new semiconductor heterojunction SERS substrate for ultra-sensitive detection of antibiotic residues in egg, Food Chemistry 2024, 431, 137163.

8. X. Jiang, S. He, Y.M. Tang, X.W. Wang, H.Z. Zhang, L.B. Yang, W. Kan, B. Zhao, High energy facet-dominated TiO_2-X facet heterojunction with excellent carrier utilization for ultrasensitive SERS sensing and efficient degradation of antibiotic residues, Sens. Actuators B Chem. 2024, 403, 135241.

9. X. Jiang, H. Jiang, Y.M. Tang, H.Z. Zhang, L.B. Yang, X.W. Wang, B. Zhao, g-C₃N₄/TiO_2-X heterojunction with high-efficiency carrier separation and multiple charge transfer paths for ultrasensitive SERS sensing, Chin. Chem. Lett. 2024, 35, 109415.

10. K.W. Li, H. Jiang, L.Y. Wang, R. Wang, X.W. Zhang, L.B Yang, X. Jiang*, W. Song, B. Zhao, A flexible semiconductor SERS substrate by in situ growth of tightly aligned TiO₂ for in situ detection of antibiotic residues, Microchim. Acta 2024, 191,113.

11. X.W. Wang, C. Sun, Y. Zhang, W. Xin, X. Jiang*, Z. Lu, L. Yu, M. Zhu, L.B. Yang, Discrepancy of alkaline/neutral hydrogen evolution activity from NiCoSe₂/NC and CoeNiSe/NC derived from in-situ thermal and solution processing selenizations of ZIF-67, Int. J. Hydrogen Energy 2024, 49, 1236-1244.

12. J. Li, Y.M. Tang, X.W. Wang, W. Kan, L.B. Yang, X. Jiang*, Y. Ozaki, X.X. Han, B. Zhao, Sr-Doped TiO₂ with Positive Double Defects for Highly Sensitive and Stable Surface-Enhanced Raman Substrate, J. Phys. Chem. C 2024, 128, 296-303.

13. D.X. Yu, L. Xu, H.Z. Zhang, J. Li, W. Wang, L.B. Yang, X. Jiang*, B. Zhao, A new semiconductor-based SERS substrate with enhanced charge collection and improved carrier separation: CuO/TiO₂ p-n heterojunction, Chin. Chem. Lett. 2023, 34, 107771.

14. X. Jiang, L. Xu, W. Ji, W. Wang, J. Du, L.B. Yang, W. Song, X.X. Han, B. Zhao, One plus one greater than Two: Ultrasensitive Surface-Enhanced Raman scattering by TiO₂/ZnO heterojunctions based on Electron-Hole separation, Appl. Surf. Sci. 2022, 584, 152609.

15. X. Jiang, J. Zhang, L. Xu, W. Wang, J. Du, M.H. Qu, X.X. Han, L.B. Yang, B. Zhao, Ultrasensitive SERS detection of antitumor drug methotrexate based on modified Ag substrate, Spectrochimi. Acta A 2020, 240, 118589.

16. X. Jiang, D. Yin, M. Yang, J. Du, W. Wang, L. Zhang, L.B. Yang, X.X. Han, B. Zhao, Revealing interfacial charge transfer in TiO₂/reduced graphene oxide nanocomposite by surface-enhanced Raman scattering (SERS): Simultaneous a superior SERS-active substrate, Appl. Surf. Sci. 2019, 487, 938-944.

17. X. Jiang, Q.Q. Sang, M. Yang, J. Du, W. Wang, L.B. Yang, X.X. Han, B. Zhao, Metal-free SERS substrate based on rGO-TiO₂-Fe₃O₄ nanohybrid: contribution from interfacial charge transfer and magnetic controllability, Phys. Chem. Chem. Phys. 2019, 21, 12850-12858.

18. L.B. Yang, Q.Q. Sang, J. Du, M. Yang, X.L. Li, Y. Shen, X.X. Han, X. Jiang*, B. Zhao, A Ag synchronously deposited and doped TiO₂ hybrid as an ultrasensitive SERS substrate: a multifunctional platform for SERS detection and photocatalytic degradation, Phys. Chem. Chem. Phys. 2018, 20, 15149-15157.

19. X. Jiang, Y.C. Chen, J. Du, M. Yang, Y. Shen, X.L. Li, X.X. Han, L.B. Yang, B. Zhao, SERS investigation and high sensitive detection of carbenicillin disodium drug on the Ag substrate, Spectrochimi. Acta A 2018, 204, 241-247.

20. X. Jiang, Y.L. Chen, J. Du, X.L. Li, Y. Shen, M. Yang, X.X. Han, L.B. Yang, B. Zhao, Comparative study of semiconductor TiO₂ and noble metal Ag substrates: The differences between chemical enhancement and electromagnetic enhancement in SERS, J. Raman Spectrosc. 2018, 49, 1257-1264.

21. Y.C. Chen, X.X. Li, M. Yang, L.B. Yang, X.X. Han, X. Jiang*, B. Zhao, High sensitive detection of penicillin G residues in milk by surface enhanced Raman scattering, Talanta 2017, 167, 236-241.

22. X. Jiang, K. Song, X.L. Li, M. Yang, X.X. Han, L.B. Yang, B. Zhao, Double metal co-doping of TiO₂ nanoparticles for improvement of their SERS activity and ultrasensitive detection of enrofloxacin: Regulation strategy of energy levels, Chemistry Select 2017, 2, 3099-3105.

23. X. Jiang, X.D. Sun, D. Yin, X.L. Li, M. Yang, X.X. Han, L.B. Yang, B. Zhao, Recyclable Au-TiO₂ nanocomposite SERS-active substrates contributed by synergistic charge-transfer effect, Phys. Chem. Chem. Phys. 2017, 19, 11212-11219.

24. L.B. Yang, D.Yin, Y. Shen, M. Yang, X.L. Li, X.X. Han, X. Jiang*, B. Zhao, Mesoporous semiconducting TiO₂ with rich active sites as a remarkable substrate for surface-enhanced Raman scattering, Phys. Chem. Chem. Phys. 2017, 19, 18731-18738.

25. L.B. Yang, D. Yin, Y. Shen, M. Yang, X.L. Li, X.X. Han, X. Jiang*, B. Zhao, Highly-dispersed TiO₂ nanoparticles with abundant active sites induced by surfactants as a prominent substrate for SERS: charge transfer contribution, Phys. Chem. Chem. Phys. 2017, 19, 22302-22308.

26. L.B. Yang, Y.L. Chen, Y. Shen, M. Yang, X.L. Li, X.X. Han, X. Jiang*, B. Zhao, SERS strategy based on the modified Au nanoparticles for highly sensitive detection of bisphenol A residues in milk, Talanta 2018, 179, 37-42.

27. L.B. Yang, M.D. Gong, X. Jiang*, Y.F. Chen, X.X. Han, K. Song, X.D. Sun, Y.J. Zhang, B. Zhao, SERS investigation and detection of levofloxacin drug molecules on semiconductor TiO₂: Charge transfer contribution, Colloids and Surfaces A: Physicochem. Eng. Aspects 2016, 508, 142-149.

28. X. Jiang, X.Y. Qin, D. Yin, M.D. Gong, L.B. Yang, B. Zhao, W.D. Ruan, Rapid monitoring of benzylpenicillin sodium using Raman and surface enhanced Raman spectroscopy, Spectrochimi. Acta A 2015, 140, 474-478.

29. 江欣, 秦晓宇, 宫孟娣, 李秀玲, 李光植, 杨立滨, 赵冰. 金属镍掺杂改进纳米TiO₂的表面增强拉曼散射性能, 高等体球网,球探体育比分化学学报 2014，35(3), 488-492.

30. X. Jiang, X.L. Li, X.F. Jia, G.Z. Li, X. Wang, G.Y. Wang, Z.S. Li, L.B. Yang, B. Zhao, Surface-Enhanced Raman Scattering from Synergistic Contribution of Metal and Semiconductor in TiO₂/MBA/Ag(Au) and Ag(Au)/MBA/TiO₂ Assemblies, J. Phys. Chem. C 2012, 116, 14650-14655.

31. X. Jiang, Y.Q. Wu, C.Y. He. Rare earth dibenzoylmethane complexes for potential application as high-density recordable optical recording materials, Materials Letters 2008, 62(2), 286-288.

32. 江欣, 吴谊群, 贺春英. 新型多氮杂环金属配合物的合成及其光谱研究, 光谱学与光谱分析 2008, 28 (11), 2511-2514.

科研项目

1. 基于表面增强拉曼散射的抗生素药物残留检测研究，项目负责人，国家自然科学基金青年科学基金项目，2019.01-2021.12.

2. 高性能半导体新型SERS活性基底研究，项目负责人，黑龙江省自然科学基金面上项目，2014.07-2017.07.

3. 稀土二元配合物蓝光存储材料的合成及性质研究，项目负责人，黑龙江教育厅科学技术研究项目，2009.01-2011.12.

4. 高性能TiO₂新型SERS活性基底研究，指导教师，黑龙江省大学生创新创业训练计划项目（国家级），2014.09-2016.08.

5. 药学专业物理化学双语教学的研究与实践，项目负责人，黑龙江省教育科学规划课题青年专项课题，2012.10-2015.10.

专利

1. 杨立滨，江欣，王伟娥，吴莉莉，杜娟，杨铭，徐琳，一种TiO₂/ZnO半导体异质结SERS活性基底的制备方法，发明专利，ZL 2019 1 0196490.X，授权日期：2021.11.

2. 杨立滨，江欣，沈宇，李秀玲，杨铭，尹迪，一种介孔TiO₂表面增强拉曼散射活性基底的制备和应用方法，发明专利，ZL 2017 1 0346578.6，授权日期：2019.12.

3. 杨立滨，江欣，杨铭，李秀玲，沈宇，赵志宇，佟德成，陈永亮，一种牛奶中双酚A残留的表面增强拉曼检测方法，发明专利，ZL 2017 1 0221422.5，授权日期：2019.06.

4. 江欣，杨立滨，李秀玲，杨文杰，田丽华，佟德成，赵志宇，宋昆，杨铭，用表面增强拉曼光谱法检测恩诺沙星的方法，发明专利，ZL 2016 1 1039208.X，授权日期：2019.04.

5. 杨立滨，江欣，杨铭，王运良，田丽华，滕杨，高洪福，佟德成，多功能超声波清洗装置，实用新型专利，ZL 2011 2 0558862.8，授权日期：2012.08.

6. 杨立滨，江欣，杨铭，李秀玲，安洪欣，周海瑞，王旭，慎爱民，小型搅拌式冰浴装置，实用新型专利，ZL 2011 2 0558861.3，授权日期：2012.08.

专著或教材

1. 江欣, 杨立滨. 《物理化学实验》第二版, 北京大学出版社 黑龙江大学出版社，2017.07.

2. 江欣. 《基于半导体TiO₂的表面增强拉曼散射研究》, 黑龙江大学出版社, 2014.07.

3. 杨立滨, 江欣. 《应用化学》, 北京大学出版社 黑龙江大学出版社, 2015.07.