熊竹 (博士,副教授)
研究生导师,广州大学“百人计划”引进青年杰出人才
熊竹老师于2014年在中国科学院大学宁波材料技术与工程研究所获得材料学博士学位,长期从事新型微孔膜材料开发、产业化生产及其相关的集成系统设计与商业应用研究。主要集中在1)超滤膜材料的相转化制备与结构优化及水处理深度处理应用,开发的超滤复合微孔膜在微污染物(含新兴污染物)及重金属如铊、砷、锑等深度水处理方面取得显著进展;2)平替杜邦公司纳滤膜相关产品如NF90和NF270产品的国产化替代、规模化生产及组件开发与资源回收如盐湖提锂、电池浸出液提锂、稀土尾水中贵金属资源回收等;3)陶瓷微孔膜材料的规模化制备及深度水处理技术与海水提铀技术开发。相关成果发表于Advanced Materials、Advanced Functional Materials、Nano-Micro Letters, Journal of Membrane Science, Chemical Engineering Journal等权威期刊,发表SCI论文80+(其中第一/通讯:43篇,中科院一区33篇),授权中国发明专利25项,引用次数大于3200,H-index 31。主持完成国家自然科学基金等科研项目15项,企业横向经费到账超过150万。其研发的膜法集成工艺经工程验证,处理效率较传统方法提升3-8倍,运行成本降低40%以上。技术体系已应用于水资源及金属资源回收、物流浓缩与分离等领域。
广州大学环境科学与工程学院
工作邮箱:xiongzhu@gzhu.edu.cn
通讯地址:广州市大学城外环西路230号电子信息实验楼615,510006
工作经历
2020年11月-至今,广州大学环境科学与工程学院,副教授
2018年09月-2020年11月,广州大学大湾区环境研究院,副教授
2017年09月-2018年10月,苏州吴中区胥口镇人民政府,副镇长
2016年12月-2018年08月,中国科学院宁波材料技术与工程研究所,副研究员
2016年09月-2016年12月,中国科学院宁波材料技术与工程研究所,助理研究员
2014年07月-2016年09月,中国科学院宁波材料技术与工程研究所,博士后
社会科技服务:创办珠海烯望纳米新材料科技有限公司(公司网站:https://www.zhwiwang.com),主要从事新型纳米材料的研究、生产与销售。核心团队联合华南理工大学突破纳滤膜分离技术,应用于脱盐、盐湖提锂及中水回用领域。通过产学研合作平台推动科技成果转化,累计获超500万元支持,致力于以材料创新推动可持续发展。
教育背景
2011年09月-2014年07月,中国科学院宁波材料技术与工程研究所,博士,获中国科学院大学博士学位
2008年09月-2011年07月,湖南大学,硕士
2004年09月-2008年07月,黑龙江科技大学,学士
科研项目
1.广州大学百人计划引进人才科研启动项目(项目主持人):2018.9-2023.9 。
2.国家自然科学基金青年基金:项目编号(51603215),题目“立构复合协同表面交联对聚乳酸微孔膜的结晶与微孔结构演变及表面相容性调控机理研究”。
3.宁波市自然科学基金(社会重大项目):项目编号(2017C510005),题目“微生物耦合膜原位强化生态修复技术研究及其开放河道工程示范”。
4.第 58 批中国博士后基金(面上资助):项目编(2015M581965),题目“立构复合聚乳酸微孔膜的界面交联及结晶和微结构研究”。
5. 2015 年浙江省博士后基金(择优资助):项目编号(127,网上可直接查询),题目“立构复合与酯交换对可降解聚乳酸微孔膜的结晶演变、耐热及微结构性能研究”。
6.宁波市自然科学基金:项目编号(2015A610024),题目“超临界二氧化碳诱导相分离制备耐热聚乳酸微孔膜”。
7. 广东省自然科学基金面上项目(省级):项目编号(2015A610024),题目“聚合物微孔膜分离界面多级水化层稳定构筑和双极强化与抗污机制”。
8. 广州市市校(院)企联合资助项目(市级):项目编号(202201020200),题目“聚合物微孔膜表面层级微孔结构设计、构筑及油水分离过程长效抗污性能研究”。
9. 青年人才项目:项目编号(RQ2020053),题目“基于表界面多级微电场构筑的超滤活性膜长效抗污与难降解有机物高效去除机理研究”。
10. 2022年市校(院)联合资助(高水平大学)基础研究项目:项目编号(网上可直接查询),题目“聚合物微孔膜表面层级微结构设计、构筑及油水分离过程长效抗污性能研究”。
11. 校内科研项目(研究类):项目编号(YJ2023026),题目“面向环境应用的活性微孔膜制备及膜生物反应器低耗抗污应用与成果转化平台搭建”。
12. 技术咨询:项目编号(2023219),题目“基于大豆油生产过程产生的废水处理工艺优化与可行性报告和咨询服务”。
13. 技术服务:项目编号(2023192),题目“羟基乙酸酸化工艺设备设计”。
14.技术开发:项目编号(2023032),题目“一整套全自动果汁浓缩膜分离组合系统”。
15. 技术开发:项目编号(2021171),题目“高效少污泥新型膜生物反应器在难处理污水处理系统中应用及其核心材料开发”。
16.技术开发:项目编号(2024170),题目“膜分离技术成套设备研发及产业化”
第一作者/通讯论文
2025年
1) Zhao, B., Song, L., Zou, Z., Xiong, Z*., Zhang, Y., Yang, Q., ... & Song, Y. (2005). Electrospun Ti3C2 MXene Fiber‐Decorated Interlayer for Synchronous Sulfur Activation and Lithium Stabilization. Advanced Functional Materials, 2500079.
2) Dong, K., Cheng, Y., Jia, M., Mahmud, S., Deng, M., Yi, Z., ... & Xiong, Z*. (2025). MOF-like zirconium-doped prussian blue decorated microporous membranes for efficient arsenate (V) capture from wastewater. Separation and Purification Technology, 363, 132339.
3) Xiong, Z*., Cheng, Y., Dong, K., Sakil, M., Wang, Z., Zhang, L., ... & Zhao, S. (2025). Highly efficient removal of trace thallium from surface water by Co@ Fe Prussian blue analogue coated membrane. Separation and Purification Technology, 357, 130078.
4) Xiong, Z., Yi, Z., Sakil, M., Huang, L., Wang, Z., Wu, X., ... & Zhu, L. (2025). Renewable β-FeOOH nanorods modified polyvinylidene fluoride membrane enables high potable water quality: Performance and mechanisms. Separation and Purification Technology, 356, 129816.
5) Yang, Y., Huang, L., Huang, Y., Sakil, M., Dong, K., Yang, J., ... & Xiong, Z*. (2025). The self-cleaning hybrid membranes with nano-TiO2 modification for deeply removing the humic acid and heavy metal from water: Mechanism and feasibility. Journal of Membrane Science, 717, 123648.
2024年
1) Cheng, Y., Xiong, Z*., Mahmud, S., Lu, J., Dong, K., He, S., ... & Zhang, G. (2024). Fabrication of cobalt-iron Prussian blue analogues functionalized hybrid membranes for efficiently capturing Tl from water: Performance and mechanism. Chemosphere, 363, 142807.
2) Wang, L., Yi, Z., Zhang, P., Xiong, Z*., Zhang, G., & Zhang, W. (2024). Comprehensive strategies for microcystin degradation: a review of the physical, chemical, and biological methods and genetic engineering. Journal of Environmental Management, 365, 121707.
3) Yang, Y., Cheng, Y., Ling, S., Wan, Y., Xiong, Z*., Li, C., ... & Zhao, S. (2024). Scalable, flexible, ultra-strong, free-standing papery all carbon nanotube membrane with excellent separation and antifouling properties. Chemical Engineering Journal, 490, 151750.
4) Lu, J., Xiong, Z*., Sakil, M., Cheng, Y., Dong, K., Qin, D., ... & Zhao, S. (2024). Enhanced removal of trace thallium by photo-promoted adsorption using Prussian blue@ filter papers: Performance and mechanistic insights. Journal of Hazardous Materials, 471, 134464.
5) Lu, J., Xiong, Z*., Cheng, Y., Long, Q., Dong, K., Zhang, H., ... & Zhang, G. (2024). The energy-free purification of trace thallium (I)-contaminated potable water using a high-selective filter paper with multi-layered Prussian blue decoration. Frontiers of Chemical Science and Engineering, 18(2), 13.
6) He, S., Mahmud, S., Xiong, Z*., Shi, Y., Lu, J., Cheng, Y., ... & Zhang, G. (2024). A high-selective and stable melamine form with economic and simple decoration for purification of thallium (I)-contaminated water. Environmental Technology & Innovation, 33, 103461.
2023年
1) Zeng, Q., Cao, Y., Gao, B., Huang, X., Zhang, Q., Wang, Y., ... Xiong, Z*., & Xue, W. (2023). Peroxymonosulfate activation by Co@ TiO2 for high-efficiency organic removals. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 675, 132021.
2) Zeng, Q., Yang, L., Zhang, Q., Cai, T., Wang, Y., Cao, Y., Xiong, Z*.,... & Oh, R. (2023). Shaddock peels derived multilayer biochar with embedded CoO@Co nanoparticles for peroxymonosulfate based wastewater treatment. Chemosphere, 325, 138398.
3) Xiong, Z., Lai, Q., Lu, J., Qu, F., Yu, H., Chen, X., ... & Zhao, S. (2023). Silanization enabled superhydrophobic PTFE membrane with antiwetting and antifouling properties for robust membrane distillation. Journal of Membrane Science, 674, 121546.
4) Yang, J., Huang, Y., Cheng, Y., Wu, X., Lu, J., Wan, Q., ... & Xiong, Z*. (2023). Long-acting removal of high-toxic p-nitrophenol in wastewater via peroxymonosulfate activation by cyclic membrane catalysis. Journal of Cleaner Production, 401, 136739.
5) Zhang, Q., Xiao, Y., Yang, L., Wen, Y., Xiong, Z*., Lei, L., ... & Zeng, Q. (2023). Branched core-shell a-TiO2@ N-TiO2 nanospheres with gradient-doped N for highly efficient photocatalytic applications. Chinese Chemical Letters, 34(4), 107628.
6) Shi, Y., Huang, L., Mahmud, S., Zhang, G., Li, H., Wang, Y., ... & Xiong, Z*. (2023). High-efficiently capturing trace thallium (Ι) from wastewater via the prussian blue@ polytetrafluoroethylene hybrid membranes. Chemical Engineering Journal, 451, 138712.
2022年
1) Huang, X., Li, L., Zhao, S., Tong, L., Li, Z., Peng, Z., Xiong, Z*.,... & Ye, L. (2022). MOF-like 3D graphene-based catalytic membrane fabricated by one-step laser scribing for robust water purification and green energy production. Nano-Micro Letters, 14(1), 174.
2) Xiong, Z., Huang, Y., Huang, Z., Shi, Y., Qu, F., Zhang, G., ... & Zhao, S. (2022). Confining nano-Fe3O4 in the superhydrophilic membrane skin layer to minimize internal fouling. ACS Applied Materials & Interfaces, 14(22), 26044-26056.
3) Yang, Y., Lai, Q., Mahmud, S., Lu, J., Zhang, G., Huang, Z., ... & Xiong, Z*. (2022). Potocatalytic antifouling membrane with dense nano-TiO2 coating for efficient oil-in-water emulsion separation and self-cleaning. Journal of Membrane Science, 645, 120204.
4) Xiong, Z*., Liu, J., Yang, Y., Lai, Q., Wu, X., Yang, J., ... & Zhao, S. (2022). Reinforcing hydration layer on membrane surface via nano-capturing and hydrothermal crosslinking for fouling reduction. Journal of Membrane Science, 644, 120076.
2021年
1) Xiong, Z*., Liu, J., Yang, Y., Lai, Q., Wu, X., Yang, J., ... & Zhao, S. (2022). Reinforcing hydration layer on membrane surface via nano-capturing and hydrothermal crosslinking for fouling reduction. Journal of Membrane Science, 644, 120076.
2) Yang, Y., Xiong, Z*., Wang, Z., Liu, Y., He, Z., Cao, A., ... & Zhao, S. (2021). Super-adsorptive and photo-regenerable carbon nanotube based membrane for highly efficient water purification. Journal of Membrane Science, 621, 119000.
3) He, Z., Mahmud, S., Yang, Y., Zhu, L., Zhao, Y., Zeng, Q., Xiong, Z*., & Zhao, S. (2020). Polyvinylidene fluoride membrane functionalized with zero valent iron for highly efficient degradation of organic contaminants. Separation and Purification Technology, 250, 117266.
2020年
1) Zhong, Y., Mahmud, S., He, Z., Yang, Y., Zhang, Z., Guo, F., Xiong, Z*., & Zhao, Y. (2020). Graphene oxide modified membrane for highly efficient wastewater treatment by dynamic combination of nanofiltration and catalysis. Journal of Hazardous Materials, 397, 122774.
2) Xiong, Z., He, Z., Mahmud, S., Yang, Y., Zhou, L., Hu, C., & Zhao, S. (2020). Simple amphoteric charge strategy to reinforce superhydrophilic polyvinylidene fluoride membrane for highly efficient separation of various surfactant-stabilized oil-in-water emulsions. ACS Applied Materials & Interfaces, 12(41), 47018-47028.
3) Tong, L., Xiong, Z., Shen, Y. X., Peng, Y. G., Huang, X. Y., Ye, L., ... & Zhu, X. F. (2020). An acoustic meta‐skin insulator. Advanced Materials, 32(37), 2002251.(共同第一)
4) Chen, Z., Mahmud, S., Cai, L., He, Z., Yang, Y., Zhang, L., ... & Xiong, Z*. (2020). Hierarchical poly (vinylidene fluoride)/active carbon composite membrane with self-confining functional carbon nanotube layer for intractable wastewater remediation. Journal of Membrane Science, 603, 118041.
5) He, Z., Mahmud, S., Zhao, S., Yang, Y., Zhu, L., Zhao, Y., Xiong, Z*.,.. & Hu, C. (2020). Hierarchically active poly (vinylidene fluoride) membrane fabricated by in situ generated zero-valent iron for fouling reduction. ACS Applied Materials & Interfaces, 12(9), 10993-11004.
2018年
1) Zhong, Y., Li, T., Lin, H., Zhang, L., Xiong, Z*., Fang, Q., ... & Liu, F. (2018). Meso-/macro-porous microspheres confining Au nanoparticles based on PDLA/PLLA stereo-complex membrane for continuous flowing catalysis and separation. Chemical Engineering Journal, 344, 299-310.
2) Xiong, Z., Li, T., Liu, F., Lin, H., Zhong, Y., Meng, Q. A., ... & Song, W. (2018). Chinese knot inspired Ag nanowire membrane for robust separation in water remediation. Advanced Materials Interfaces, 5(11), 1800183.
3) Xiong, Z., Lin, H., Liu, F., Xiao, P., Wu, Z., Li, T., & Li, D. (2017). Flexible PVDF membranes with exceptional robust superwetting surface for continuous separation of oil/water emulsions. Scientific reports, 7(1), 14099.
2017年
1) Xiong, Z., Zhong, Y., Lin, H., Liu, F., Li, T., & Li, J. (2017). PDLA/PLLA ultrafiltration membrane with excellent permeability, rejection and fouling resistance via stereocomplexation. Journal of Membrane Science, 533, 103-111.
2) Xiong, Z., Lin, H., Zhong, Y., Qin, Y., Li, T., & Liu, F. (2017). Robust superhydrophilic polylactide (PLA) membranes with a TiO2 nano-particle inlaid surface for oil/water separation. Journal of Materials Chemistry A, 5(14), 6538-6545.
2016年
1) Xiong, Z., Liu, F., Lin, H., Li, J., & Wang, Y. (2016). Covalent bonding of heparin on the crystallized poly (lactic acid)(PLA) membrane to improve hemocompability via surface cross-linking and glycidyl ether reaction. ACS biomaterials science & engineering, 2(12), 2207-2216.
2) Xiong, Z., Lin, H., Liu, F., Yu, X., Wang, Y., & Wang, Y. (2016). A new strategy to simultaneously improve the permeability, heat-deformation resistance and antifouling properties of polylactide membrane via bio-based β-cyclodextrin and surface crosslinking. Journal of Membrane Science, 513, 166-176.
3) Xiong, Z., Liu, F., Gao, A., Lin, H., Yu, X., Wang, Y., & Wang, Y. (2016). Investigation of the heat resistance, wettability and hemocompatibility of a polylactide membrane via surface crosslinking induced crystallization. RSC Advances, 6(25), 20492-20499.
2015年
1) Yang, Y., Tang, Z., Xiong, Z*., & Zhu, J. (2015). Preparation and characterization of thermoplastic starches and their blends with poly (lactic acid). International Journal of Biological Macromolecules, 77, 273-279.
2) Xiong, Z., Dai, X., Na, H., Tang, Z., Zhang, R., & Zhu, J. (2015). A toughened PLA/Nanosilica composite obtained in the presence of epoxidized soybean oil. Journal of Applied Polymer Science, 132(1).
2014年
1) Xiong, Z., Dai, X., Zhang, R., Tang, Z., Na, H., & Zhu, J. (2014). Preparation of biobased monofunctional compatibilizer from cardanol to fabricate polylactide/starch blends with superior tensile properties. Industrial & Engineering Chemistry Research, 53(26), 10653-10659.
2) Xiong, Z., Ma, S., Fan, L., Tang, Z., Zhang, R., Na, H., & Zhu, J. (2014). Surface hydrophobic modification of starch with bio-based epoxy resins to fabricate high-performance polylactide composite materials. Composites Science and Technology, 94, 16-22.
2013年
1) Xiong, Z., Li, C., Ma, S., Feng, J., Yang, Y., Zhang, R., & Zhu, J. (2013). The properties of poly (lactic acid)/starch blends with a functionalized plant oil: Tung oil anhydride. Carbohydrate Polymers, 95(1), 77-84.
2) Xiong, Z., Zhang, L., Ma, S., Yang, Y., Zhang, C., Tang, Z., & Zhu, J. (2013). Effect of castor oil enrichment layer produced by reaction on the properties of PLA/HDI-g-starch blends. Carbohydrate polymers, 94(1), 235-243.
3) Xiong, Z., Yang, Y., Feng, J., Zhang, X., Zhang, C., Tang, Z., & Zhu, J. (2013). Preparation and characterization of poly (lactic acid)/starch composites toughened with epoxidized soybean oil. Carbohydrate polymers, 92(1), 810-816.
4) 熊竹, 熊远钦, 尹辉军, 张拉拉, & 徐伟箭. (2012). 聚氨酯-聚丙烯酸酯复合胶乳的制备及其性能研究. 高校化学工程学报, 26(2), 301-307.
授权中国专利:
(1) 熊竹,赖巧云,瞿芳术。一种基于聚四氟乙烯的改性超疏水膜的制备方法及其应用,2022.01.18,发明,中国,专利号:ZL202210056902.1
(2) 熊竹,黄泳诗,杨兢欣,顾书。一种CuO@Cu-PDA/PEI改性膜的制备方法,2021.12.28,发明,中国,专利号:ZL202111629949.4
(3) 熊竹,杨洋。一种二氧化钛改性膜及其制备方法,2021.03.25,发明,中国,专利号:ZL202110323576.1
(4) 胡春,何子俊,熊竹。一种改性聚偏氟乙烯超滤膜及其制备方法,2020.08.25,发明,中国,专利号:ZL202010866810.0
(5) 何子俊,熊竹,王铸,杨洋,胡春。一种聚乳酸微孔膜的制备方法,2020.07.29,发明,中国,专利号:ZL202010748733.9
(6) 熊竹,何子俊,杨洋,胡春。一种改性碳纤维及其在含油废水分离回收中的应用,2020.06.10,发明,中国,专利号:ZL 202010527750.X
(7) 熊竹,杨洋,胡春。一种改性碳纳米膜及其制备方法,一种改性碳纳米膜及其制备方法,发明,中国,专利号:ZL 202010168455.X
(8) 熊竹,杨洋,胡春。一种多功能生物基复合微孔膜及其制备方法,2020.03.12,发明,中国,专利号:ZL 202010172926.4
(9) 熊竹,贺永。一种具有功能界面的分离膜及其制备方法与应用,2021.04.30,发明,中国,专利号:ZL 202110479333.7
(10) 熊竹,贺永。具有高效油水分离的铁基超亲水立构复合聚乳酸微孔膜及其制备方法,2019.07.29,发明,中国,专利号:ZL 201910688678.6
(11) 熊竹,贺永。一种Janus聚四氟乙烯中空纤维膜及其制备方法,2019.06.21,发明,中国,专利号:ZL 201910542535.4
(12) 熊竹,黄泽慧,黄泳诗,吴雪燕,王庆楠,杨兢欣,唐永朗。一种二氧化钛自清洁膜及其制备方法与应用,2022.07.12,发明,中国,专利号:ZL 202210812111.7
(13) 林海波,刘富,熊竹,李田田,佘振,罗平,汪小红。负载纳米线的聚合物微孔膜及其制备方法,2017.09.01,发明,中国,专利号:ZL 201710779305.0
(14) 刘富,林海波,熊竹,钟云。一种聚乳酸微孔膜及其制造方法,2017.03.10,发明,中国,专利号:ZL 201710144043.0
(15) 刘富,熊竹,高爱林,俞学敏,林海波,王云泽,王益。一种聚丙交酯型聚氨酯改性聚乳酸合金及其制备方法,2015.06.04,发明,中国,专利号:ZL 201510300232.3
(16) 汤兆宾,熊竹,朱锦,李鹏。一种聚乳酸/淀粉生物基可降解复合材料及其制备方法,2013.10.31,发明,中国,专利号:ZL 201310532786.7
(17) 代新燕,那海宁,朱锦,熊竹,汤兆宾。一种全生物基硬质聚乳酸复合材料及其制备方法,2013.04.19,发明,中国,专利号:ZL 201310138332.1
(18) 张立生,熊竹,张传芝,朱锦。一种松香基形状记忆聚氨酯的制备方法,2013.01.22,发明,中国,专利号:ZL 201310025024.8
(19) 汤兆宾,朱锦,熊竹,杨勇,张传芝。一种生物降解材料及其制备方法和应用,2012.04.25,发明,中国,专利号:ZL 201210124234.8
(20) 熊竹,朱锦,汤兆宾,张传芝,杨勇,冯建湘。一种聚乳酸/淀粉全生物基可降解复合材料及其制备方法,2012.03.09,发明,中国,专利号:ZL 201210062675.X
(21) 张伟,王龙,熊竹,程宇航,易卓然。一种微纳米射流曝气系统,2023.6.21,实用新型,中国,专利号:ZL 202321593659.3
(22) 张伟,王龙,熊竹,程宇航,易卓然,张鹏。一种高效碳纤维生物反应器及循环水产养殖系统,2023.7.6,实用新型,中国,专利号:ZL202321763345.3
(23) 张伟,王龙,熊竹,练达豪,张鹏。一种生态循环水育苗系统,2023.8.24,实用新型,中国,专利号:ZL202322277811.3
(24) 张伟,王龙,熊竹,程宇航,易卓然,张鹏。一种实验室用的可移动上流式厌氧污泥床反应器,2023.7.18,实用新型,中国,专利号:ZL2023218864775
(25) 张伟,王龙,熊竹,程宇航,练达豪,张鹏。一种石斑鱼循环水养殖系统,2023.8.24,实用新型,中国,专利号:ZL2023222778202
培养研究生
何子俊(2018级,国家奖学金获得者,毕业去向:广东国脉信息发展有限公司)
杨 洋(2019级,国家奖学金获得者,毕业去向:莫纳什大学攻读博士)
程宇航(2021级,毕业去向:衢州膜产业创新研究所)
卢江燕(2021级,毕业去向:珠海烯望纳米新材料科技有限公司,即将出国深造(2025,08))
董凯歌(2022级,毕业去向:南京工业大学攻读博士)
练达豪(2023级,在读)
联合培养
赖巧云(2021级,广大土木市政工程,毕业方向:企业)
聂成伟(2022级,广大土木市政工程,毕业方向:江西水利投资集团)
黄永诗(2021级,广大大湾区环境研究院,毕业去向:企业)
石一文(2020级,广大环境工程,毕业去向:公务员)
何斯琪(2022级,广大环境工程,企业)
张继钰(2023级,烟台大学环境工程,在读)
付鑫(2023级,景德镇陶瓷大学,在读)
培养本科生
黄泽慧(毕业去向:南京大学)
吴雪燕(毕业去向:南方科技大学)
王庆楠(毕业去向:暨南大学)
本科教学
膜法新世界
现代膜分离技术与应用
