熊竹

作者: 时间:2021-02-26 点击数:

微信图片_20210226110716.jpg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

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

202011-至今,广州大学环境科学与工程学院,副教授

201809-202011月,广州大学大湾区环境研究院,副教授

201709-201810月,苏州吴中区胥口镇人民政府,副镇长

201612-201808月,中国科学院宁波材料技术与工程研究所,副研究员

201609-201612月,中国科学院宁波材料技术与工程研究所,助理研究员

201407-201609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:长期担任Journal of Membrane Science, Chemical Engineer Journal, Journal of Hazardous Materials, Separation and Purification Technology, ACS Applied Materials & Interfaces等国内外著名学术期刊特邀审稿专家。

 

教育背景

201109-201407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

200809-201107月,湖南大学,硕士

200409-200807月,黑龙江科技大学,学士

 

研究方向

1)超滤膜制备及其功能化应用

2)微孔膜水合层强化及其抗污染研究

3)超吸附微孔膜的制备及其在高毒性有机小分子、重金属方面的去除

4)高效微生物碳载体的制备及其在农村废水中的处理应用

5)超稳定富氧活性水的生产及其应用

 

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 80(在研)

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,合同经费20万,负责人(结题)。

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,合同经费 100 万,合作单位负责人(在研)。

4. 58 批中国博士后基金(面上资助):项目编号(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,二等资助10 万,负责人(结题)。

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,二等资助 3 万,负责人(结题)。

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”, 二等资助 3 万,负责人(结题)。

 

2021年文章

1Yang, Y., Xiong, Z*., Wang, Z., Liu, Y., He, Z. J., Cao, A. K., Zhou, L., Zhu, L. J., Zhao, S*. (2021). Super-adsorptive and photo-regenerable carbon nanotube based membrane for highly efficient water purification. Journal of Membrane Science, 621, 119000. (工程技术,Q1IF=7.183

2020年文章

1Xiong, Z., He, Z., Mahmud, S., Yang, Y., Zhou, L., Hu, C*., & Zhao, S. (2020). A 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, 47018-47028(材料科学,Q1IF=8.758

2He, 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.(工程技术,Q1IF=5.774

3Chen, Z., Mahmud, S., Cai, L., He, Z., Yang, Y., Zhang, L*., Zhao, S., & 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.(工程技术,Q1IF=7.183

4Zhong, 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.(环境科学与生态学,Q1IF=9.038

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. (材料科学,Q1IF=8.758

6) Tong, L., Xiong, Z (共同第一作)., Shen, Y. X., Peng, Y. G., Huang, X. Y., Ye, L*., Tang, M., Cai, F., Zheng, H*., Xu, J., Cheng, G*., & Zhu, X*. (2020). An Acoustic Meta-Skin Insulator. Advanced Materials, 2002251.(材料科学,Q1IF=27.398

7Mahmud, S., Wang, J., Shao, N., Xiong, Z., Zhang, R., & Zhu, J. (2020). Nucleation and crystallization of poly (propylene 2, 5-furan dicarboxylate) by direct blending of microcrystalline cellulose: improved tensile and barrier properties. Cellulose, 1-14.(材料科学,Q2IF=4.21)

2019年文章

1) Mahmud, S., Long, Y., Abu Taher, M., Xiong, Z., Zhang, R., & Zhu, J. (2019). Toughening polylactide by direct blending of cellulose nanocrystals and epoxidized soybean oil. Journal of Applied Polymer Science, 136(46), 48221.(化学,Q3IF=2.52

2018年文章

1) Zhou, S., Xiong, Z., Liu, F., Lin, H., Wang, J., Li, T., & Fang, Q. (2019). Novel Janus membrane with unprecedented osmosis transport performance. Journal of Materials Chemistry A, 7(2), 632-638.(材料科学,Q1IF=11.301

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.(材料科学,Q2IF=4.948

3) Li, J., Liu, F*., Yu, X., Wu, Z., Wang, Y., Xiong, Z., & He, J. (2016). APTES assisted surface heparinization of polylactide porous membranes for improved hemocompatibility. RSC Advances, 6(48), 42684-42692.(化学,Q3IF=3.119

4) 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.(工程技术,Q1IF=10.652

5) Li, T., Liu, F*., Lin, H., Xiong, Z., Wang, H., Zhong, Y., & Wu, A. (2018). Fabrication of anti-fouling, anti-bacterial and non-clotting PVDF membranes through one step “outside-in” interface segregation strategy. Journal of colloid and interface science, 517, 93-103.(化学,Q2IF=7.489

2017年文章

1)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), 1-12.(综合性期刊,Q3IF=3.998

2) Gao, A., Liu, F*., Xiong, Z., & Yang, Q. (2017). Tunable adhesion of superoleophilic/superhydrophobic poly (lactic acid) membrane for controlled-release of oil soluble drugs. Journal of colloid and interface science, 505, 49-58. (化学,Q2IF=7.489

3)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(工程技术,Q1IF=7.183

4)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. (材料科学,Q1IF=11.301

2016年文章

1) Wang, Y., Lin, H., Xiong, Z., Wu, Z., Wang, Y., Xiang, L., & Liu, F*. (2016). A silane-based interfacial crosslinking strategy to design PVDF membranes with versatile surface functions. Journal of Membrane Science, 520, 769-778. (工程技术,Q1IF=7.183

2) Li, J., Liu, F*., Qin, Y., He, J., Xiong, Z., Deng, G., & Li, Q. (2017). A novel natural hirudin facilitated anti-clotting polylactide membrane via hydrogen bonding interaction. Journal of Membrane Science, 523, 505-514. (工程技术,Q1IF=7.183

3)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.(工程技术,Q3IF=4.152

3) Yang, Y., Zhang, L., Xiong, Z., Tang, Z., Zhang, R*., & Zhu, J*. (2016). Research progress in the heat resistance, toughening and filling modification of PLA. Science China Chemistry, 59(11), 1355-1368.(化学,Q1IF=6.356

4)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. (工程技术,Q1IF=7.183

5) Wu, Z., Lin, H., Wang, Y., Yu, X., Li, J., Xiong, Z., & Liu, F*. (2016). Enhanced catalytic degradation of 4-NP using a superhydrophilic PVDF membrane decorated with Au nanoparticles. RSC advances, 6(67), 62302-62309. (化学,Q3IF=3.119

6) Li, J., Liu, F*., Yu, X., Wu, Z., Wang, Y., Xiong, Z., & He, J. (2016). APTES assisted surface heparinization of polylactide porous membranes for improved hemocompatibility. RSC Advances, 6(48), 42684-42692. (化学,Q3IF=3.119

7) Wang, Y., Lin, H., Xiong, Z., Wu, Z., Yu, X., Wang, Y., & Liu, F*. (2016). Investigation of abnormal thermoresponsive PVDF membranes on casting solution, membrane morphology and filtration performance. RSC advances, 6(33), 27485-27493. (化学,Q3IF=3.119

8)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. (化学,Q3IF=3.119

2015年文章

1) Yu, X., Xiong, Z., Li, J., Wu, Z., Wang, Y., & Liu, F*. (2015). Surface PEGylation on PLA membranes via micro-swelling and crosslinking for improved biocompatibility/hemocompatibility. RSC advances, 5(130), 107949-107956. (化学,Q3IF=3.119

2) Yang, Y., Xiong, Z., Zhang, L., Tang, Z., Zhang, R*., & Zhu, J*. (2016). Isosorbide dioctoate as a “green” plasticizer for poly (lactic acid). Materials & Design, 91, 262-268.(材料科学,Q1IF=6.289

3) Xiang, Y., Wang, Y., Lin, H., Wang, Y., Xiong, Z., & Liu, F*. (2015). Efficient separation of O/W and W/O micro-emulsion by thermally responsive superantiwetting PVDF membrane. Reactive and Functional Polymers, 97, 86-95.(工程技术,Q3IF=3.333

4) Yu, X., Liu, F*., Wang, L., Xiong, Z., & Wang, Y. (2015). Robust poly (lactic acid) membranes improved by polysulfone-g-poly (lactic acid) copolymers for hemodialysis. RSC advances, 5(95), 78306-78314. (化学,Q3IF=3.119

5) Zhang, L., Xiong, Z., Shams, S. S., Yu, R., Huang, J., Zhang, R., & Zhu, J*. (2015). Free radical competitions in polylactide/bio-based thermoplastic polyurethane/free radical initiator ternary blends and their final properties. Polymer, 64, 69-75.(化学,Q1IF=4.231

6) Dai, X., Xiong, Z., Ma, S., Li, C., Wang, J., Na, H., & Zhu, J*. (2015). Fabricating highly reactive bio-based compatibilizers of epoxidized citric acid to improve the flexural properties of polylactide/microcrystalline cellulose blends. Industrial & Engineering Chemistry Research, 54(15), 3806-3812.(工程技术,Q2IF=3.573

7) 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.(化学,Q2IF=5.162

8) Qi, Z., Yang, Y., Xiong, Z., Deng, J., Zhang, R*., & Zhu, J. (2015). Effect of aliphatic diacyl adipic dihydrazides on the crystallization of poly (lactic acid). Journal of Applied Polymer Science, 132(23).(化学,Q3IF=2.52

9)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). (化学,Q3IF=2.52

2014年文章

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. (工程技术,Q2IF=3.573

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.(材料科学,Q1IF=7.094

3) Dai, X., Xiong, Z., Na, H*., & Zhu, J*. (2014). How does epoxidized soybean oil improve the toughness of microcrystalline cellulose filled polylactide acid composites?. Composites science and technology, 90, 9-15. (材料科学,Q1IF=7.094

2013年文章

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.(工程技术,Q1IF=7.182

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. (工程技术,Q1IF=7.182

3) Feng, J., Zhang, X., Ma, S., Xiong, Z., Zhang, C., Jiang, Y., & Zhu, J*. (2013). Syntheses of metallic cyclodextrins and their use as synergists in a poly (vinyl alcohol)/intumescent flame retardant system. Industrial & Engineering Chemistry Research, 52(8), 2784-2792.(工程技术,Q2IF=3.573

4) Zhang, L., Jiang, Y., Xiong, Z., Liu, X., Na, H., Zhang, R., & Zhu, J*. (2013). Highly recoverable rosin-based shape memory polyurethanes. Journal of Materials Chemistry A, 1(10), 3263-3267.(材料科学,Q1IF=11.301

5)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. (工程技术,Q1IF=7.182

2012年文章

1) Yin, H. J., Xiong, Z., Yan, S. J., Chen, Z. M., Xiong, Y. Q., & Xu, W. J*. (2012). UV-Curable hybrids of hyperbranched and linear polyurethane dispersions. Journal of Macromolecular Science, Part B, 51(2), 209-223.(工程技术,Q4IF=0.911

2) Zhang, L., Yin, H., Xiong, Z., Xiong, Y., & Xu, W. (2011). Flowability and mechanical and thermal properties of nylon 6/ethylene bis-stearamide/carboxylic silica composites. Journal of Macromolecular Science, Part B, 50(12), 2255-2270. (工程技术,Q4IF=0.911

3)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.

 

专利:

1)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, CN112023725A.

2)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),CN112023724A

3熊竹;杨洋;胡春. 一种改性碳纳米膜及其制备方法 (2020), CN111318257A (审中)

4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), CN111346523A (审中)

5 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), CN110559690A (审中)

6熊竹; 贺永. 一种超亲水生物相容碳纤维及无污泥MBR污水处理系统2019), CN110451633A (审中)

7熊竹; 贺永. 一种Janus聚四氟乙烯中空纤维膜及其制备方法 (2019), CN110394068A (审中)

8刘富; 林海波; 熊竹; 钟云. 一种聚乳酸微孔膜及其制造方法 (2018), CN108568216A (有权)

9林海波; 刘富; 熊竹; 李田田; 余振; 罗平; 汪小红. 负载纳米线的聚合物微孔膜及其制备方法 (2018), CN107617344A (实审)

10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(2017), CN106280325A (有权)

11)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(2014), CN103627154A (有权)

12 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), CN103275472A (有权)

13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), CN103113551A (有权)

14 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), CN102634185A (有权)

15 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), CN102604349A (有权)

 

 

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