赵爽

姓名：赵爽

系所：分析化学系职称：副教授

联系方式：zhaoshuang@jsnu.edu.cn；17327398050（微信同号）

个人简介：

赵爽，1991年9月生，副教授，工学博士，硕士生导师，江苏省优秀青年基金获得者，入选江苏省科协青年科技人才托举工程，获江苏省材料学会科学技术特等奖、高廷耀青年博士杰出人才奖、唐孝炎环境科学创新奖、江苏师范大学青年教师教学优胜奖等多项荣誉奖励。近年来主持完成国家自然科学基金面上项目、江苏省自然科学基金优秀青年项目等共计8项，在Angew. Chem. Int. Ed.；Water Res.；PNAS；Adv. Funct. Mater.等权威国际期刊发表学术论文60余篇，申请国家发明专利10余项。

研究领域：

1.低碳水污染控制技术；

2.新污染物监测与分析；

3.水处理药剂的研发与应用。

教育背景：

2013.9-2016.6：山东大学环境科学与工程学院博士研究生；

2011.9-2013.6：山东大学环境科学与工程学院硕士研究生；

2007.9-2011.6：烟台大学环境与材料工程学院本科生。

主讲课程：

《水污染控制工程》、《分析化学》

科研项目：

[1]江苏省优秀青年基金项目，微塑料的氢键识别与低碳气浮协同去除机制研究，2025.9-2028.8，50万元，主持，在研。

[2]国家自然科学基金面上项目，面向抗生素抗性基因去除的浒苔多糖基絮凝剂的可控设计及其作用机制，2023.01-2026.12，54万元，主持，在研。

[3]江苏省科协青年科技人才托举工程，JSTJ-2024-065，2024.10-2026.09，3万元，主持，在研。

[4]徐州市自然科学基金青年人才项目，面向重金属去除的浒苔多糖基螯合絮凝剂的定向设计及其作用机制研究，2022.09-2024.08，5万元，主持，已完成。

[5]国家自然科学基金青年项目，新型絮凝剂-浒苔多糖对饮用水处理中消毒副产物生成的影响机制研究，2020.01-2022.12，25万元，主持，已完成。

[6]江苏省自然科学基金青年项目，以浒苔多糖为新型絮凝剂的水处理工艺中消毒副产物生成与控制研究，2017.07-2020.06，20万元，主持，已完成。

[7]江苏省高等学校自然科学研究面上项目，浒苔多糖的应用对膜污染及DBPs生成的影响机制研究，2017.09-2019.08，5万元，主持，已完成。

[8]江苏师范大学自然科学研究项目，浒苔多糖基复合/复配絮凝剂的研发及作用机制研究，2017.01-2019.12，20万元，主持，已完成。

近5年发表的代表性论文：

[1] Qu, L.^*; Zhang,Y.; Shang, Y.; Gu,B.; Hong, X.; Zhao, S.^*; Gu,Y.; Yang, G.; Dong, X^*, Anionic COF aerogels for selective pollutant removal and ultrasensitive SERS detection. Advanced Functional Materials 2025, e202510861.

[2] Yu, Y.^#; Feng, X.^#; Jian, Y.; Shen, Y.; Nie, X.; Jia, W.; Wang, Q.; Qu, L.^*; Zhao, S.^*,Mutual treatment of algae organic matters and heavy metal ions using a coagulation process: Processes and mechanisms. Separation and Purification Technology 2025, 362, 131900.

[3] Zhao, S.; Liu, M.; Qu, Z.; Yan, Y.^*; Zhang, Z.; Yang, J.; He, S.; Xu, Z.; Zhu,Y.; Luo, L.^*; Hui, K.N.; Liu, M.^*; Zeng,J, Cascade synthesis of Fe-N₂-Fe dual-atom catalysts for superior oxygen catalysis. Angewandte Chemie International Edition 2024, 63(40), e202408914.

[4] Li, P.; Zhang, J.; Shen, Y.; Feng, X.; Jia, W.;Liu, M.; Zhao, S.^*,Efficient, quick, and low-carbon removal mechanism of microplastics based on integrated gel coagulation-spontaneous flotation process. Water Research 2024, 259,121906.

[5] Li, P.^#; Zhang, J.^#; Yu, Y.; Jia, W.; Zhao, S.^*, A collaborative coagulation strategy for algae-laden and dye-containing water treatment. Journal of Cleaner Production2024, 442, 141146.

[6] Lu, X.^#; Zhu, Y.^#; Shen, Y.; Fan, W.; Wang, Q.^*; Liu, M.; Zhao, S.^*; Jia, W.^*, Nitrogen removal performance and microbial response ofanammox under multiantibiotic stress: Effect of static magneticfield. Industrial & Engineering Chemistry Research2024, 63(28), 12350-12360.

[7] Zhang, J.; Yan, Y.; Jia, W.^*; Yang, W.; Wang, Q.; Zhao, S.^*, Design and application of gel coagulation-spontaneous flotation integrated process in water treatment: “Clouds in water”. Water Research 2023, 243, 120407.

[8] Zhang, J.; Li, P.; Yu, Y.; Xu, Y.; Jia, W.; Zhao, S.^*, A review of natural polysaccharides-based flocculants derived from waste: application efficiency, function mechanism, and development prospects. Industrial & Engineering Chemistry Research 2023, 62(39), 15774-15789.

[9] Zhao, S.; Zhang, J.; Yang, W.^*; Liu, M.; Yan, Y.; Jia, W.^*, Application of laminarin as a novel coagulant aid to improve coagulation-ultrafiltration efficiency. Environmental Research 2023, 228, 115909.

[10] Fan, W.; Chen, Y.; Yuan, B.; Chen, X.; Wang, Q.; Zhao, S.^*; Jia, W.^*, Enhancing anammox nitrogen removal by static magnetic field exposure: Performance, microbial community and symbiotic relationship analysis. Journal of Water Process Engineering 2023, 53, 103709.

[11] Zhang, J^#.; Li, G^#.; Yuan, X.^*; Li, P.; Yu, Y.; Yang, W.; Zhao, S.^*, Reduction of ultrafiltration membrane fouling by the pretreatment removal of emerging pollutants: A review. Membranes 2023, 13(1), 77.

[12] Zhang, Y.; Zhang, J.; Shen, X.^*; Liu, X.; Yang, W.; Zhao, S.^*, Enhanced coagulation treatment of surface water benefits from Enteromorpha prolifera. Journal of Environmental Chemical Engineering 2022, 10(2), 107227.

[13] Zhang, J.; Jia, W.; Yan, Y.; Zhao, S.^*, Coagulation removal and recycling strategy of TiO₂ nanoparticles based on Enteromorpha prolifera polysaccharide application. Journal of Water Process Engineering 2022, 49, 103083.

[14]Zhao, S.; Kang, Y.; Liu, M.; Wen, B.; Fang, Q.; Tang, Y.; He, S.; Ma, X.^*; Liu, M.^*; Yan, Y.^*, Modulating the electronic structure of nanomaterials to enhance polysulfides confinement for advanced lithium-sulfur batteries. Journal of Materials Chemistry A 2021, 9(35), 18927-18946.

[15]Zou, Z.; Gu, Y.; Yang, W.; Liu, M.; Han, J.; Zhao, S.^*, A modified coagulation-ultrafiltration process for silver nanoparticles removal and membrane fouling mitigation: The role of laminarin. International Journal of Biological Macromolecules 2021, 172, 241-249.

[16] Liu, X.; Zhao, S.^*; Zhang, X.; Jia, W.; Zou, Z.; Wang, Q., Application of sodium alginate as a coagulant aid for mitigating membrane fouling induced by humic acid in dead-end ultrafiltration process. Separation and Purification Technology 2020, 253, 117421.

[17] Zhao, S.; Sun, Q.; Gu, Y.^*; Yang, W.; Chen, Y.; Lin, J.^*; Dong, M.; Cheng, H.; Hu, H.; Guo, Z.^*, Enteromorpha prolifera polysaccharide based coagulant aid for humic acids removal and ultrafiltration membrane fouling control. International Journal of Biological Macromolecules2020, 152, 576-583.

[18] Gu, Y.^*; Chen, X.; Zhao, S^*; Zhang, Y., FeCe nanocomposite with high iron content as efficient catalyst for generation of CO_x-free hydrogen via ammonia decomposition. Journal of Rare Earths 2020, 38(10), 1053-1059.

[19] Zhao, S.^*; Zhang, P.; Zou, Z.; Han, J.^*; Yang, W.; Sun, Q., Polysaccharides derived from Enteromorpha prolifera for the removal of silver nanoparticle-humic acid contaminants by a coagulation-ultrafiltration process. RSC Advances 2020, 10(27), 16079-16087.

[20] Zhao, S.^*,#; Li, D^#.; Yang, W.; Zou, Z., Application of polyaluminum chloride-polyacrylamide as new water treatment material for the removal of natural organic matter. Materials Science Forum 2020, 1003, 109-114.