熊志远
姓名 | 熊志远 |
性别 | 男 |
学校 | 华南理工大学 |
部门 | SCUT |
学位 | 教授 |
学历 | 教授 |
职称 | 教授 |
联系方式 | 【发送到邮箱】 |
邮箱 | 【发送到邮箱】 |
人气 | |
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更新日期:2023年8月31日 姓 名 熊志远 性 别 男 出生年月 1989年11月 籍贯 天门 民 族 汉族 政治面貌 中国共产党党员 最后学历 博士研究生 最后学位 工学博士 技术职称 教授 导师类别 博、硕导 行政职务 Email xzyscut@scut.edu.cn 工作单位 SCUT 邮政编码 510641 通讯地址 广州市天河区五山路381号 单位电话 02087114145 个人主页 https://www2.scut.edu.cn/qgkxygc/2023/0316/c13056a494063/page.htm 个人简介 熊志远,工学博士、华南理工大学教授。研究方向为石墨烯等二维材料的胶体与界面科学,系统性研究了石墨烯材料的胶体化学与流变科学,提出了系列将石墨烯组装为形态可控宏观材料的加工方法,及水相大规模制备石墨烯的技术;研究了石墨烯/离子的界面,揭示了离子在纳米孔内的分布结构与传质行为;研究了纳米-生物界面相互作用,探索了石墨烯在新能源、膜分离、生物医学领域的应用。迄今共发表论文50余篇,以第一及通讯作者在Advanced Materials, Energy storage Materials, Small Methods, Advanced Healthcare Materials, Carbon等国际期刊发表多篇论文。 工作经历 2017.01-2019.01 澳大利亚蒙纳士大学材料科学与工程系,博士后2019.01-2023.01 澳大利亚墨尔本大学化学工程系,博士后2023.01-至今 华南理工大学轻工科学与工程学院,教授 教育经历 2007.09-2011.07 西北工业大学应用化学系,高分子材料与工程专业,工学学士2011.09-2016.07 清华大学化学工程系,材料科学与工程专业,工学博士 获奖、荣誉称号 1. 2016年清华大学优秀博士论文奖2. 2016年博士后国际交流计划奖 社会、学会及学术兼职 美国化学工程师协会会员澳大利亚能源协会会员 研究领域 二维材料、功能材料、软物质、离子传输、生物医学 科研项目 曾主持或主要参与国内外科研项目,主要包括:1、博士后国际交流计划项目:石墨烯功能性材料(2017-2019),主持;2、国家重点基础研究发展计划:石墨烯材料的宏量可控制备及其应用基础研究(2012-2016),参与;3、国家自然科学基金重点项目:偶氮聚合物光致粘流和纳/微米结构构筑研究(2013-2017),参与;4、澳大利亚研究委员会:Nanoionics: Engineering Ion Transport With Two-Dimensional Materials (2019-2024),参与。 发表论文 先后在国内外学术刊物及会议上发表论文50余篇,代表性学术论文:1. Xiong, Z., Cao, Y., Jiang, W. J., Zu, L. H., Liang, Q. H. & Li, D. Shearing induced ordered structures in two-dimensional nanomaterials-based electrodes for boosted pseudocapacitive kinetics. Energy Storage Materials 53, 444-452 (2022).2. Xiong, Z.,† Huang W.,† Liang Q., Cao Y., Liu S., He Z., Zhang R., Zhang B., Green R., Zhang S. & Li D. Harnessing the 2D Structure-Enabled Viscoelasticity of Graphene-Based Hydrogel Membranes for Chronic Neural Interfacing, Small Methods, 2022, 2200022.3. Li C. Y.†, Xiong, Z.†, Zhou L.†, Huang W. G., He Y. S, Li L. P., Shi H. B., Lu J. Y.*, Wang J., Li, D.*, Yin S. K.*Interfacing perforated eardrums with graphene-based membranes makes broadband hearing recovery, Advanced Healthcare Materials, 2022, 10.1002/adhm.202201471.(†, co-first author)4. Zhan, H.†, Xiong, Z.†, Cheng, C.†, Liang, Q., Liu, J. Z. & Li, D. Solvation‐Involved Nanoionics: New Opportunities from 2D Nanomaterial Laminar Membranes. Advanced Materials32, 1904562 (2020). (†, co-first author)5. Yun, X.W., Tang, B., Xiong, Z.* & Wang, X.G.* Understanding Self-assembly, Colloidal Behavior and Rheological Properties of Graphene Derivatives for High-performance Supercapacitor Fabrication. Chinese Journal of Polymer Science, 1-12 (2020). (*, co-responding author)6. Xiong, Z., Yun, X., Qiu, L., Sun, Y., Tang, B., He, Z., Xiao, J., Chung, D., Ng, T. W. & Yan, H. A Dynamic Graphene Oxide Network Enables Spray Printing of Colloidal Gels for High‐Performance Micro‐Supercapacitors. Advanced Materials31, 1804434 (2019).7. Xiong, Z., Yun, X., Tang, B. & Wang, X. Ultratough Cellular Films from Graphene Oxide Hydrogel: A Way to Exploit Rigidity and Flexibility of Two-Dimensional Honeycomb Carbon. Carbon107, 548-556 (2016).8. Xiong, Z., Liao, C., Han, W. & Wang, X. Mechanically Tough Large‐Area Hierarchical Porous Graphene Films for High‐Performance Flexible Supercapacitor Applications. Advanced Materials27, 4469-4475 (2015).9. Xiong, Z., Liao, C. & Wang, X. Reduced graphene oxide diffraction gratings from duplication of photoinduced azo polymer surface-relief-gratings through soft-lithography. Journal of Materials Chemistry C3, 6224-6231 (2015).10. Xiong, Z., Liao, C. & Wang, X. A self-assembled macroporous coagulation graphene network with high specific capacitance for supercapacitor applications. Journal of Materials Chemistry A2, 19141-19144 (2014).11. Xiong, Z., Gu, T. & Wang, X. Self-assembled multilayer films of sulfonated graphene and polystyrene-based diazonium salt as photo-cross-linkable supercapacitor electrodes. Langmuir30, 522-532 (2014).12. Xiao, J., Zhan, H., Wang, X., Xu, Z.-Q., Xiong, Z., Zhang, K., Simon, G. P., Liu, J. Z. & Li, D. Electrolyte gating in graphene-based supercapacitors and its use for probing nanoconfined charging dynamics. Nature Nanotechnology15, 683-689 (2020).13. Cao, Y., Xiong, Z., Xia F., Franks G., Zu L. H., Wang X., Hora Y., Mudie S., He Z. J., Qu L. B., Xing, Y. L. & Li, D. New Structural Insights into Densely Assembled Reduced Graphene Oxide Membranes, Advanced Functional Materials, 2201535 (2022).14. Xiawei Yun, Xiong, Z., Long Tu, Linqing Bai, Xiaogong Wang. Hierarchical porous graphene film: An ideal material for laser-carving fabrication of flexible micro-supercapacitors with high specific capacitance. Carbon125, 308-317 (2017).15. Qian, X., Xie, K., Guo, S., Liang, Q., Zhang, S., Xiong, Z., Zhan, H., Liu, C., Yang, X. & Zhu, J. Beneficial restacking of 2D nanomaterials for electrocatalysis: a case of MoS2 membranes. Chemical Communications56, 7005-7008 (2020).16. Yu, P., Xiong, Z., Zhan, H., Xie, K., Zhong, Y. L., Simon, G. P. & Li, D. Electrochemically-derived graphene oxide membranes with high stability and superior ionic sieving. Chemical Communications55, 4075-4078 (2019).17. Yan, H., Shang, W., Sun, X., Zhao, L., Wang, J., Xiong, Z., Yuan, J., Zhang, R., Huang, Q. & Wang, K. “All‐in‐One” Nanoparticles for Trimodality Imaging‐Guided Intracellular Photo‐magnetic Hyperthermia Therapy under Intravenous Administration. Advanced Functional Materials28, 1705710 (2018).18. Tang, B., Gao, E., Xiong, Z., Dang, B., Xu, Z. & Wang, X. Transition of graphene oxide from nanomembrane to nanoscroll mediated by organic solvent in dispersion. Chemistry of Materials30, 5951-5960 (2018).19. Tang, B., Xiong, Z., Yun, X. & Wang, X. Rolling up graphene oxide sheets through solvent-induced self-assembly in dispersions. Nanoscale10, 4113-4122 (2018).10. Yan, H., Zhao, L., Shang, W., Liu, Z., Xie, W., Qiang, C., Xiong, Z., Zhang, R., Li, B. & Sun, X. General synthesis of high-performing magneto-conjugated polymer core-shell nanoparticles for multifunctional theranostics. Nano Research10, 704-717 (2017).会议报告:1. Xiong, Z., Development and Opportunities of Graphene-based Biomedicine, Annual Academic Conference of Radiology an Imaging Technology of Guangdong Province Medical Association, Jau. 2020, Zhuhai, China. (Invited Speaker)2. Xiong, Z., Ultrafast structural recovery of graphene oxide based colloidal gels after high-rate shearing. The 9th Australian Colloid and Interface Symposium, Feb. 2019, Hobart, Tasmania, Australia. (Oral Presentation)3. Xiong, Z., Relationship of Graphene Microstructure and Ultra-capacitive Property, AIChE Annual Meeting, Nov. 2015, Salt Lake City, Utah, USA. (Oral Presentation)4. Xiong, Z., Preparation of Graphene Supercapacitor with Different Microstructure through Self-Assembly Approach, The 22th Japan Polyimide and Aromatic Polymers Conference, Nov. 2014, Tokyo, Japan. (Oral Presentation) 指导学生情况 在澳大利亚期间,协助培养博士研究生2名。每年可招收材料与化工、轻工技术与工程专业,博士研究生1-2名,硕士研究生2名。 |