黄剑莹
副教授/博士生导师
最高学历:
厦门大学高分子化学与物理专业博士
研究领域:
功能性纺织纤维材料、油水分离材料、浸润性仿生材料研究
E-mail:
jyhuang@fzu.edu.cn
教育工作经历:
2018.07-至今 银河电子游戏1331 副教授、博导
2016.06-2018.06 苏州大学纺织与服装工程学院 副教授
2013.06-2016.06 苏州大学纺织与服装工程学院讲师
2011.07-2013.06 德国明斯特大学 访问学者
2007.09-2011.10 福建省物质结构研究所助理研究员
2002.09-2007.06 厦门大学高分子化学与物理专业博士研究生
1998.09-2002.06 厦门大学化学银河电子游戏1331本科生
教学简介:
致力于功能性纺织纤维材料、油水分离材料、浸润性仿生材料及其多相过滤分离应用研究,主持参与科研项目10余项。在Energy Environ Sci、Adv Mater、Adv Funct Mater、Small、Chem Eng J、J Mater Chem A等期刊发表论文100余篇,ESI高被引论文20余篇,论文引用7000余次;入选2019,2020年全球高被引科学家榜单、福建省高层次创新创业人才(B类)、泉州市高层次创新创业人才(第二层次)等。
科研项目:
目前在研主持的科研项目:
1.国家自然科学基金面上项目:TiO2复合膜层光电催化-油水分离协同功能与机理研究
2.国家自然科学基金青年项目:基于巯基光点击化学的TiO2超疏图案化膜层的构筑及应用研究
3.江苏省高校自然科学研究面上项目,巯基光点击化学在超疏图案化膜层构筑上的应用研究
4.江苏省自然科学基金青年项目,超疏界面TiO2 网膜对纺织印染含油废水的协同处理
5.江苏省2013 年度第二批博士后基金,特殊浸润性TiO2 网膜对纺织印染含油废水的分离
社会兼职:
美国化学会会员、中国化学学会和中国纺织工程学会会员
代表性论文:
1.Advances in Silicon-based Electrodes: From Fundamental Research towards Practical Applications, Advanced Materials, 2021, 33, 2004577. (Featured as Frontispiece)
2.Photothermal and Joule heating-assisted thermal management sponge for efficient cleanup of highly viscous crude oil, Journal of Hazardous Materials, 2021, 403, 124090.
3.Advanced materials with special wettability towards intelligent oily wastewater remediation, ACS Applied Materials & Interfaces, 2021, 13(1), 67-87.
4.Silk fibroin derived nitrogen-doped carbon quantum dots anchored on TiO2 nanotube arrays for heterogeneous photocatalytic degradation and water splitting, Nano Energy, 2020, 78, 105313.
5.Vertically-aligned Pt-decorated MoS2 nanosheets coated on TiO2 nanotube arrays enable high-efficiency solar-light energy utilization for photocatalysis and self-cleaning SERS devices, Nano Energy, 2020, 71, 104579.
6.A semi-interpenetrating network ionic hydrogel for strain sensing with high sensitivity, large strain range, and stable cycle performance, Chemical Engineering Journal, 2020, 385, 123912.
7.TiO2 nanotube arrays decorated with Au and Bi2S3 nanoparticles for efficient Fe3+ ions detection and dye photocatalytic degradation, Journal of Materials Science & Technology, 2020, 39, 28-38.
8.Charged graphene aerogel filter enabled superior particulate matter removal efficiency in harsh environment, Chemical Engineering Journal, 2020, 395, 125086.
9.Reducing oxygen evolution reaction overpotential in cobalt-based electrocatalysts via optimizing the "microparticles-in-spider web" electrode configurations, Small, 2020, 16, 1907029.
10.Metal-organic frameworks and their derivatives with graphene composites: preparation and applications in electrocatalysis and photocatalysis, Journal of Materials Chemistry A, 2020, 8(6), 2934-2961.
11.Crafting mussel-inspired metal nanoparticle-decorated ultrathin graphitic carbon nitride for the degradation of chemical pollutants and production of chemical resources, Advanced Materials, 2019, 31, 1806314. (ESI高引用论文)
12.Liquid mobility on superwettable surfaces for applications in energy and the environment,Journal of Materials Chemistry A, 2019, 7(1), 38-63. (ESI高引用论文)
13.Graphene aerogels for efficient energy storage and conversion,Energy & Environmental Science, 2018, 11(4), 772-799. (ESI高引用论文)
14.Bioinspired Surfaces with Superamphiphobic Properties: Concepts, Synthesis, and Applications, Advanced Functional Materials,2018, 28, 1707415. (Front Cover, Feature Article,ESI高引用论文)
15.Rational Materials Interface Design towards Artificially Intelligent Oil-Water Separation, Nanoscale Horizons, 2018, 3(3), 235-260.(ESI高引用论文)
16.Controllable superhydrophobic coating on cotton fabric by UV induced thiol-ene reaction for wettability patterning and device metallization, Advanced Materials Interfaces, 2017, 4(13), 1700268.
17.Recent advances in TiO2-based nanostructure surfaces with controllable wettability and adhesion , Small, 2016, 12(16), 2203-2224. (ESI高引用论文)
18.In situ plasmonic Ag nanoparticles anchored TiO2 nanotube arrays as visible-light-driven photocatalysts for enhanced water splitting, Nanoscale, 2016, 8(9), 5226-5234. (ESI高引用论文)
19.Robust superhydrophobic TiO2@fabrics for UV shielding, self-cleaning and oil-water separation, Journal of Materials Chemistry A, 2015, 3(6), 2825-2832.(ESI高引用论文)
20.TiO2 nanotube arrays loaded with reduced graphene oxide films: Facile hybridization and promising photocatalytic application, Journal of Materials Chemistry A, 2015, 3(7), 3491-3499.
21.Enhanced photocatalytic performance of n-TiO2 nanotubes by uniform creation of p-n heterjunctions with p-Bi2O3 quantum dots, Nanoscale, 2015, 7(27), 11552-11560
22.Robust flower-like TiO2@Cotton fabrics with special wettability for effective self-cleaning and versatile oil-water separation, Advanced Materials Interfaces, 2015, 2(14), 1570068.
23.Controlled grafting superhydrophobic cellulose surface with environmentally-friendly short fluoroalkyl chains by ATRP, Materials & Design, 2015, 85, 815-822
24.Multifunctional Superamphiphobic TiO2 Nanostructure Surfaces with Facile Wettability and Adhesion Engineering, Small, 2014, 10(23), 4865-4873. (Front Cover)
25.Controllable wettability and adhesion on bioinspired multifunctional TiO2 nanostructure surfaces for liquid manipulation, Journal of Materials Chemistry A, 2014, 2(43), 18531-18538.