博士生导师

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程新建

作者:发布时间:2017-04-17点击率:


 

程新建,教授,博士生导师。20047月毕业于湖北大学,获高分子化学与物理理学硕士学位;20077月毕业于复旦大学,获材料化学与物理工学博士学位;20078月至20098月在香港城市大学从事博士后研究;20098月至20108月在澳大利亚James Cook大学从事博士后研究。20108月至20147月任教于中南民族大学化学与材料科学学院;20149月至201610月,任教于西南大学纺织服装学院。至今以第一作者/通讯作者已在Journal of Materials Chemistry, Polymer Chemistry, Carbohydrate PolymersSCI期刊共发表研究论文60余篇。

  

主要科研领域与方向:

重金属离子的识别与分离;

功能高分子材料

近年承担的主要科研项目:

1. 国家自然科学基金,“大分子荧光化学传感器的构建及其对重金属离子的识别与分离研究”批准号41573106.

2. 国家重金属污染防治工程技术研究中心开放项目,“对铬离子兼具识别及分离功能聚合物膜的构建及性能研究”.

3. 国家自然科学基金,“选择性光化学传感器的制备及其在金属元素的地球化学中的分析新方法研究”批准号41240026.

4. 教育部留学回国人员启动基金,45批。

5. 科技部中国-罗马尼亚政府间合作项目: Chitosan based hydrogels aslumilnescent chomosensors for detection and removal of heavy metals

6. 青海省科技厅合作项目: 反应型多孔纳米微球化学传感器的构筑及其对重金属离子的检测和分离机制。

联系方式:chxj606@163.com.

近期SCI 论文(第一作者/通讯作者)

近期SCI 论文(第一作者/通讯作者)

1. Yufan Wu, Siyuan Zhang, and Xinjian Cheng, *, “Lignin based water-soluble fluorescent macromolecular probes for the detection of Fe3+ion”. Industrial Crops and Products, 2024.

2. Lin Yun, Jiao He, and Xinjian Cheng*, “Synthesis of organic-solvent-soluble cellulose and preparation of fluorescent polyurethanes for the detection and removal of Hg+ ions.” International Journal of Biological Macromolecules. 2024.

3. Jiao He, Siyuan Zhang, and Xinjian Cheng*, “Fluorescent dendritic fibrous nanosilica/polyurethane composite membranes for selective and sensitive recognition and removal of Hg2+/Hg+ ions”. Chemical Engineering Journal, 2023

4. Siyuan Zhang, Jiao He, Xinjian Cheng*, “Amphiphilic hyperbranched polymers for selective and sensitive detection of 4-nitrophenol” ACS Applied Polymer Materials.

5. Jiao He, Lin Yun, Xinjian Cheng*, “Organic-soluble chitosan-g-PHMA (PEMA/PBMA)-bodipy fluorescent probes and film by RAFT method for selective detection of Hg2+/Hg+ ions”, International Journal of Biological Macromolecules 237 (2023) 124255.

6. Jiao He, Congwei Li, Xinjian Cheng*, “Water soluble chitosan-amino acid-BODIPY fluorescent probes for selective and sensitive detection of Hg2+/Hg+ ions”. Materials Chemistry and Physics 295 (2023) 127081.

7. Kaiqi Liu, Luminita Marin, Xinjian Cheng*, “Water-soluble β-cyclodextrin based turn-on amplifying fluorescent probes for sensitive and selective detection of Hg2+/Hg+ ions”. Sensors & Actuators: B. Chemical 377 (2023) 133060.

8. Lin Yun, and Xinjian Cheng*, “Synthesis of fuorescent probes based on cellulose for Fe2+ recognition” Cellulose, 2023, 933–951.

9. Congwei Li, Lian Duan, Xinjian Cheng*, “Water-soluble chitosan-g-PMAm (PMAA)-Bodipy probes prepared by RAFT methods for the detection of Fe3+ ion” Carbohydrate Polymers 299 (2023) 120183.

10. Congwei Li, Lian Duan, Xinjian Cheng,* “Facile method to synthesize fluorescent chitosan hydrogels for selective detection and adsorption of Hg2+/Hg+”. Carbohydrate Polymers 288 (2022) 119417.

11. Die Wang, Luminita Marin, Xinjian Cheng,* “Fluorescent chitosan-BODIPY macromolecular chemosensors for detection and removal of Hg2+ and Fe3+ ions” International Journal of Biological Macromolecules 198 (2022) 194–203.

12. Suyan He, Luminita Marin, Xinjian Cheng*, “Novel water soluble polymeric sensors for the sensitive and selective recognition of Fe3+/Fe2+ in aqueous media” European Polymer Journal 162 (2022) 110891.

13. Xinyue Jiao, Luminita Marin, Xinjian Cheng,* “Fluorescent cellulose/testing paper for the sensitive and selective recognition of explosives 2,4,6-trinitrophenol and 2,4-dinitrophenylhydrazine”. Journal of Photochemistry & Photobiology, A: Chemistry 424 (2022) 113632.

14. Xinyue. Jiao, Heyi. Li, Xinjian Cheng*, “Cellulose-based fluorescent macromolecular sensors and their ability in 2, 4, 6-trinitrophenol detection”. Materials Today Chemistry 22 (2021) 100615.

15. . Xiong, S.; Wei Sun, Rong Chen, Zhiqiang, Yuan, Xinjian Cheng*, “Fluorescent dialdehyde-BODIPY chitosan hydrogel and its highly sensing ability to Cu2+ ion”. Carbohydr Polym 2021,273, 118590.

16. Xiong, S.; Marin, L.; Duan, L.; Xinjian Cheng*, “Fluorescent chitosan hydrogel for highly and selectively sensing of p-nitrophenol and 2, 4, 6-trinitrophenol”. Carbohydr Polym 2019, 225, 115253.

17. Xiong, S.; Duan, L.; Xinjian Cheng*., “A novel coumarin-chitosan fluorescent hydrogel for the selective identification of Fe2+ in aqueous systems”. Polymer Chemistry 2020, 11 (37), 6066-6072.

18. Xiao, L.; Liu, K.; Duan, L.; Xinjian Cheng*, “Reaction-based fluorescent silk probes with high sensitivity and selectivity to Hg2+ and Ag+ ions”. Journal of Materials Chemistry C 2021, 9 (14), 4877-4887.

19. Andrei Bejan, Florica Doroftei, Xinjian Cheng* Luminita Marin, Phenothiazine-chitosan based eco-adsorbents: A special design for mercury removal and fast naked eye detection, International Journal of Biological Macromolecules, 162, 2020, 1839-1848.

20. Yuhao Wu, Xinjian Cheng*, Chaoyi Xie, Kang Du , Xianghong Li , Dingguo Tang , A polymer membrane tethered with a cycloruthenated complex for colorimetric detection of Hg2+ ions, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy. 2020,228, 117720.

21. Xiao, L.; Sun, Q.; Zhao, Q.; Xinjian Cheng*., “Highly sensitive and selective fluorescent monomer/polymer probes for Hg(2+) and Ag(+) recognition and imaging of Hg(2+) in living cells”. Anal Bioanal Chem 2020, 412 (4), 881-894.

22. Li, C.; Sun, Q.; Zhao, Q.; Xinjian Cheng*, “Highly selective ratiometric fluorescent probes for the detection of Fe(3+) and its application in living cells”. Spectrochim Acta A Mol Biomol Spectrosc 2020, 228, 117720.

23. Li, C.; Xiao, L.; Zhang, Q.; Xinjian Cheng*, “Reaction-based highly selective and sensitive monomer/polymer probes with Schiff base groups for the detection of Hg(2+) and Fe(3+) ions”. Spectrochim Acta A Mol Biomol Spectrosc 2020, 243, 118763.

24. He, S.; Xiao, L.; Marin, L.; Bai, Y.; Xinjian Cheng*, “Fully-water-soluble BODIPY containing fluorescent polymers prepared by RAFT method for the detection of Fe3+ ions”. European Polymer Journal 2021, 150.

25. Li, C.; Marin, L.; Xinjian Cheng*, Chitosan based macromolecular probes for the selective detection and removal of Fe3+ ion. International Journal of Biological Macromolecules 2021, 9, 303-313.


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