王钟颍

教师主页 团队成员 科研项目 研究领域 学术成果 教学 科研分享 新闻动态 疼痛医学中心 成果介绍 软件 毕业去向 加入我们 联系我们 王钟颍 Google Scholar ResearcherID 副教授（研究员） 环境科学与工程学院   课题组网站 王钟颍，南方科技大学环境学院副教授（研究员），先后获得清华大学学士、美国布朗大学博士学位，并在加州伯克利环境工程系从事博士后研究工作。现阶段研究方向集中于,（1）膜制备及分离领域应用 （2）纳米功能材料在环境领域的应用（3）环境中纳米材料的转化机制及毒性效应与化学机理。已在Chemical Society Reviews, PNAS, ACS Nano, Advanced Materials, Nano Letters, Environmental Science & Technology等期刊发表文章60余篇。 个人简介 个人简介 研究领域 我们课题组主要研究纳米材料在水环境中，水-纳米材料界面的行为和相互作用， 并以此结果来预测纳米材料在自然、水环境中的行为、毒性、危害等，以及利用纳米技术开发新的或者提高现有的环境修复手段。课题方向：膜分离，纳米应用，纳米环境效应。 教学 水处理工程 学术成果 查看更多 发表论文 2024 Shu Y.;  Liu X.;  Zhang M.;  Liu B*.;  Wang Z*. Deactivation of Porphyrin Metal-Organic Framework in Advanced Oxidation Process: Photobleaching and Underlying Mechanism. Applied Catalysis B: Environmental. 2024. Liu X.; Rehman D.; Shu Y.; Liu B.; Wang L.;Li L.; Wang M.; Wang K.; Han Q.; Zang L.; Lienhard. J.*; Wang Z*. Selective fluoride removal from groundwater using CNT-CeO2 electrodes in capacitive deionization (CDI). Chemical Engineering Journal. 2024. 2023 Liu B.;  Zhang J.;  Han Q.; Shu Y.;  Wang L.;  Li H.;  Li L.; Wang Z*. Redispersion Mechanisms of 2D Nanosheets: Combined Role of Intersheet Contact and Surface Chemistry. Nanoscale. 2023. Chen B.; Liu X.; Liu B.; Han Q.;  Li L.; Wang L.; Shu Y.; Zang L.; Zhu W*.; Wang Z*.Singlet oxygen generation in light-assisted peroxymonosulfate activation by carbon nitride: Role of elevated crystallinity. Chemosphere. 2023. Yang B.; Du P.; Chen G.; Zhang P.; Zhang Q.; Wang Z.; Zhang G.;  Cai Z.;  Wang J*.Dual role of soil-derived dissolved organic matter in the sulfamethoxazole oxidation by manganese dioxide. Water reaserch. 2023. Shu Y.;  Chen Y.; Han Q.;  Liu X.;  Liu B*.;   Wang Z*. Selective and Light-Enhanced Au (III) Recovery by a Porphyrin-Based Metal–Organic Framework: Performance and Underlying Mechanisms. ACS ES&T Engineering. 2023.  Chen Y.;  Wang L.;  Shu Y.;   Han Q.;  Chen B.;  Wang M.;  Liu X.; Danyal R.; Liu B.; Wang Z*.; John L. Selective Recovery of Gold from E-Wastewater Using Poly-m-phenylenediamine Nanoparticles and Assembled Membranes. ACS Appl. Eng. Mater. 2023. Liu B.; Han Z.; PanY.; Liu X.; Zhang M.; Wan A.; Wang Z*. Synergistic Effects of Organic Ligands and Visible Light on the Reductive Dissolution of CeO2 Nanoparticles: Mechanisms and Implications for the Transformation in Plant Surroundings. Environmental Science & Technology. 2023. Wang L.; Zhang M.; Shu Y.; Han Q.;Chen B.; Liu Bei.;  Wang Z*.; Chuyang Y T*. Precisely regulated in-plane pore sizes of Co-MOF nanosheet membranes for efficient dye recovery. Desalination. 2023. Pan Y.;  Liu X.;  Zhang M.;  Han Q.;  Shu Y.; Wang M.;  Liu B*.;   Wang Z*.The impact of redox annealing on intrinsic properties and fluoride adsorption performance of CeO2 nanomaterials. Chemical Engineering Journal. 2023. Zhang M.; Wang L.; Shu Y.;  Wang M.;  Chen B.;  Li L.;  Liu B*.;  Wang Z*.MOF-derived 2D Co@ C nanosheet membrane with enhanced catalytic activity: Mechanism and stability insights. Chemical Engineering Journal Advances. 2023. 2022 Wang, M.; Han, Q.; Shu, Y.; Wang,K.; Wang, L.; Liu, B.; Zucker, I.; Wang, Z*. Matrix effects on the performance and mechanism of Hg removal from groundwater by MoS 2 nanosheets. Environ. Sci.: Adv. 2022. Li, L.; Han, Q.; Wang, L.; Liu, B.; Wang,K.; Wang, Z*. Dual Roles of MoS2 Nanosheets in Advanced Oxidation Processes: Activating Permonosulfate and Quenching Radicals. Chem. Eng. J. 2022, 440, 135866. Liu, B.; Han, Z.; Han, Q.; Shu, Y.; Wang, M.; Wang, L.; Wang, Z*.; Pedersen, J. Correlating of Phase Composition and Geometric Structure to the Colloidal Stability of 2D MoS2 Nanomaterials. Environ. Sci: Nano. 2022. Han Q.; Cao H.;  Sun Y.,  Wang G.; Sidney Poon,  Wang M.;  Liu B.;  Wang Y.;  Wang Z.;  Mi B. Tuning phase compositions of MoS2 nanomaterials for enhanced heavy metal removal: performance and mechanism. Phys. Chem. Chem. Phys. 2022. Li W.;  Yang Z.; Wang Z.;  Han Q.;  Taymazov D.;  Wang J.;  Ma X.; Xu Z. Second interfacial polymerization decorating defects of TFC NF membrane formed by 1D nanochannels for improving separation performance. J. Environ. Chem. Eng. 2022. Cao, S.;  Deshmukh, A.;  Wang, L.;  Han, Q.;  Shu, Y.;  Ng, H. Y.;  Wang, Z*. ;Lienhard, J. H., Enhancing the Permselectivity of Thin-Film Composite Membranes Interlayered with MoS2 Nanosheets via Precise Thickness Control. Environ. Sci. Technol. 2022. Han, Q.;  Yu, J.;  Poon, S.;  Sun, L.;  Teli, M.;  Liu, B.;  Chen, H.;  Wang, K.;  Wang, Z*.; Mi, B*., Highly efficient removal and sequestration of Cr(VI) in confined MoS2 interlayer Nanochannels: Performance and mechanism. Sep. Purif. Technol. 2022, 293, 121104.  Zang L.; Casey F.;  Yang Z.;  Ma J.;  Mi B.;  Wang Z.;  Sun L. An electrospun transporter-assisted evaporator with antifouling water channels for solar-driven desalination and water purification. J. Taiwan. Inst. Chem. Eng. 2022, 138, 104493 Wang K.;  Han Q.;  Chen B.;  Liu B.*;  Wang Z*. Electrochemical exfoliation of MoS2 nanosheets with ultrahigh stability for lead adsorption. J. Water. Process. 2022, 50, 103212.  Liu B.;  Han Z.; Han Q.;  Shu Y.; Li L.; Chen B.;  Wang Z*.;  Pedersen J*.Redispersion Behavior of 2D MoS2 Nanosheets: Unique Dependence on the Intervention Timing of Natural Organic Matter.Environ. Sci. Technol. 2022. 2021 Ali, S.; Zuhra, Z.; Ali, S.; Shu,Y.; Han, Q.; Ahmad, M.; Wang, Z*. Ultra-deep removal of Pb by functionality tuned UiO-66 framework: A combined experimental, theoretical and HSAB approach. Chemosphere. 2021, 284, 131305.​ Wang, L; Rehman. D; Sun. P; Deshmukh, A.;  Zhang, L.; Han, Q.; Yang, Z.*; Wang, Z.*;  Park, H.; Lienhard, J.*; and Tang, C. Novel Positively Charged Metal-Coordinated Nanofiltration Membrane for Lithium Recovery. Appl. Mater. Interfaces. 2021, 13, 14, 16906–16915. Ali, S.; Zuhra, Z.; Abbas, A.; Shu,Y.; Ahmad, M.; Wang, Z*. Tailoring Defect Density in UiO-66 Framework for Enhanced Pb(II) Adsorption. Langmuir. 2021,  37, 46, 13602–13609. Liu, B.; Han, Q.; Li L.; Zheng, S.; Shu, Y.; Joel A. Pedersen; Wang, Z*. Synergistic Effect of Metal Cations and Visible Light on 2D MoS2 Nanosheet Aggregation. Environ. Sci. Technol. 2021, 55, 24, 16379–16389.​ Long, Y.; Dai, J.; Zhao, S.; Su, Y.; Wang, Z.; Zhang, Z. Atomically Dispersed Cobalt Sites on Graphene as Efficient Periodate Activators for Selective Organic Pollutant Degradation. Environ. Sci. Technol. 2021, 55, 8, 5357–5370. Wan, P.; Cui, H.; Zhou, W.; Fu, W.; Yang, F.; Wang, Z.; Du, X.; Chu, P.; Yu, X. A water-soluble membrane for SARS-CoV-2 viral nucleic acid sampling and detection. Nanoscale. 2021, 13, 18084. Liu, F.; You, S.; Wang, Z.; Liu, Y. Redox-Active Nanohybrid Filter for Selective Recovery of Gold from Water. ACS EST Engg. 2021, 1, 9, 1342–1350. 2020 ​Wang, Z.; Tu, Q.; Sim, A.; Yu, J.; Duan, Y.; Poon, S.; Liu, B.; Han, Q.; Urban, J.; Sedlak, D.; Mi, B. Superselective removal of lead from water by two-dimensional MoS2 nanosheets and layer-stacked membranes. Environ. Sci. Technol. 2020,  54, 19, 12602–12611.​ Zheng, M.; Bao, Y.; Huang, Z.; Qiu, W.; Xu, G.; Wang, Z. Radiolysis of carbamazepine by electron beam: Roles of transient reactive species and biotoxicity of final reaction solutions on rotifer Philodina sp. Sci. Total. Environ. 2020, 703, 135013. 2019 Li, N., Huang, Q., Nie, J., Meng, X., Wang, Z., et al and Lin, L. Dew point measurements using montmorillonite (MTT) and molybdenum disulfide (MoS2) coated QCM sensors. Sensors and Actuators B: Chemical, 279, 122-129, 2019 2018 Wang Z, Sim A, Urban JJ and Mi B, Removal and Recovery of Heavy Metal Ions by Two-dimensional MoS2 Nanosheets: Performance and Mechanisms, Environmental Science & Technology, 52(17), 9741-9748, 2018  Jin L, Wang Z, Zheng S, Mi B, Polyamide-crosslinked Graphene Oxide Membrane for Forward Osmosis, Journal of Membrane Science, 545, 11-18, 2018  2017 Wang Z, Zhang Y, Liu M, Peterson A, and Hurt RH, Oxidation Suppression During Hydrothermal Phase Reversion Allows Synthesis of Monolayer Semiconducting MoS2 in Stable Aqueous Suspension, Nanoscale, 9(17), 5398-5403, 2017  Wang Z, Mi B, Environmental Applications of 2D Molybdenum Disulfide (MoS2) Nanosheets, Environmental Science & Technology, 51(15), 8229-8244, 2017  Wang Z, Tu Q, Zheng S, Urban JJ, Li S and Mi B, Understanding Aqueous Stability and Filtration Capability of MoS2 Membranes, Nano Letters, 17(11), 7289−7298, 2017  Song Z, Qiu F, Zaia EW, Wang Z, Kunz M, Guo J, Brady MA, Mi B, Urban JJ. Dual-Channel, Molecular-Sieving Core/shell ZIF@ MOF Architectures as Engineered Fillers in Hybrid Membranes for Highly Selective CO2 Separation, Nano Letters, 17 (11), 6752–6758, 2017  Chen P, Liu M, Wang Z, Hurt RH, and Wong IY. Flatland to Spaceland: Higher Dimensional Patterning with Two-Dimensional Materials, Advanced Materials, 29, 1605096, 2017  2016 Wang Z, Tonderys D, Leggett SE, Williams EK, Kiani MT, Steinberg RS, Qiu Y, Wong IY, Hurt RH, Wrinkled, Wavelength-Tunable Graphene-based Surface Topographies for Directing Cell Alignment and Morphology, Carbon, 97, 14-24, 2016  Wang Z, Zhu W, Qiu Y, Yi X, von dem Bussche A, Kane AB, Gao H, Koski K, Hurt RH,  Biological and Environmental Transformations of Novel 2D Nanomaterials, Chemical Society Reviews, 1750-1780, 2016  Wang Z, von dem Bussche A, Qiu Y, Valentin T, Kyle G, Kane AB, Hurt RH, Chemical Dissolution Pathways of MoS2 Nanosheets in Biological and Environmental Media, Environmental Science & Technology, 50(13), 7208-7217, 2016  Chen P, Sodhi J, Qiu Y, Valentin T, Steinberg R, Wang Z, Hurt RH, Wong IY. Multiscale Graphene Topographies Programmed by Sequential Mechanical Deformation, Advanced Materials, 28(18), 3564-3571, 2016  Zhu W, von dem Bussche A, Yi X, Qiu Y, Wang Z, Weston P, Hurt RH, Kane AB, Gao H. Nanomechanical Mechanism For Lipid Bilayer Damage Induced By Carbon Nanotubes Confined In Intracellular Vesicles, Proceedings of the National Academy of Sciences, 113(44), 12374-12379, 2016  Lv X, Qiu Y, Wang Z, Jiang G, Chen Y Xu X., Hurt RH. Aerosol Synthesis of Phase-Controlled Iron–Graphene Nanohybrids through FeOOH Nanorod Intermediates. Environmental Science: Nano, 3(5), 1215-1221, 2016  Chen P, Liu M, Valentin TM, Wang Z, Spitz Steinberg R, Sodhi J, Wong IY, Hurt RH. Hierarchical Metal Oxide Topographies Replicated from Highly Textured Graphene Oxide by Intercalation Templating, ACS Nano, 10 (12), 10869–10879, 2016  2015 Wang Z, Lv X, Chen Y, Liu D, Xu X, Palmore GTR, Hurt RH, Crumpled Graphene Nanoreactors, Nanoscale, 7 (22), 10267-10278, 2015  Chen Y, Wang Z, Qiu Y. Aerosol Synthesis and Application of Folded Graphene-based Materials, International Journal of Modern Physics B, 29 (03), 1530003, 2015 2010-2014 Wang Z, von dem Bussche A, Kabadi PK, Kane AB, Hurt RH, Biological and Environmental Transformations of Copper-based Nanomaterials, ACS Nano, 7 (10), 8715-8727, 2013  Wang D, Wang Z, Zhao P, Zheng W, Peng Q, Liu L, Chen X, Li Y. Rare-Earth Oxide Nanostructures: Rules of Rare-Earth Nitrate Thermolysis in ODA, Chemistry, an Asian Journal, 5 (4), 925, 2010  Wang D, Ma X, Wang Y, Wang L, Wang Z, Zheng W, He X, Li J, Peng Q, Li Y, Shape Control of CoO and LiCoO2 Nanocrystals, Nano Research, 3 (1), 1-7, 2010  Liu J, Wang Z, Liu FD, Kane AB, Hurt RH. Chemical Transformations of Nanosilver in Biological Environments, ACS Nano, 6 (11), 9887-9899, 2012  Lu J, Peng Q, Wang Z, Nan C, Li L, Li Y. Hematite Nanodiscs Exposing (001) Facets: Synthesis, Formation Mechanism and Application for Li-Ion Batteries, Journal of Materials Chemistry A, 1 (17), 5232-5237, 2013  Qiu Y, Wang Z, Owens ACE, Kulaots I, Chen Y, Kane AB, Hurt RH, Antioxidant Chemistry of Graphene-based Materials and Its Role in Oxidation Protection Technology, Nanoscale, 6 (20), 11744-11755, 2014  新闻动态 更多新闻 王钟颍老师在第六届全国膜技术青年科学家峰会做特邀报告 2020-12-05 中山大学李传浩教授做学术报告 2020-01-01 王钟颍老师在第十届环境化学大会做报告 2019-12-30 团队成员 查看更多 PrevNext UpDown 加入团队 本课题组以水/nano为研究核心，现拟招聘博士后、研究助理若干名。也欢迎在读博士生来课题组交流博士后 (2-3名)岗位要求:1.    已获得博士学位（不超过3年）或即将获得博士学位，环境、化学、化工、材料、毒理学等相关专业背景；2.    具有水处理功能材料与污染物控制，光/电催化，或膜工程等相关基础与应用研究的科研经历者优先；3.    已在专业领域主流期刊上以第一作者或通讯作者发表（或被接收）论文；具有良好的英语听说读写能力，能独立撰写英文科技论文；能够独立开展研究工作，并具有良好的沟通协调能力及团队合作精神。岗位待遇：1.    待遇按照学校现行政策及有关规定执行，为博士后以及研究助理教授提供相对优厚的年薪，具体视申请人成果、履历而定；其它福利待遇参考正式教职工执行；2.    研究组全力支持博士后/研究助理教授作为负责人申请博士后科学基金、国家自然科学基金及省、市各级课题。3.    在站表现优秀的人员有机会转为课题组研究系列教职，满足学校相关条件可以聘为硕士生导师，走学校研究系列教职晋升路径。4.    表现优异且有意出国交流（或继续深造）者，课题组将提供与海外课题组相关交流费用（或推荐到国外知名课题组）。 科研助理（2-3名）基本要求：1.    已经取得相关领域的硕士学位（一般不超过两年）或即将获得硕士学位, 研究背景及兴趣基本契合课题组当前研究方向。2.    具有良好的写作能力，书面表达优秀，具备英文阅读、写作能力；在国际期刊上发表过论文者优先考虑。3.    热爱科研工作，具备进取心，具有团队合作精神；有意向继续深造，申请南科大境外/境内联合培养的博士项目者优先考虑。薪酬待遇：薪金待遇将按照南方科技大学有关规定及岗位职责从优提供，提供同学历、能力和贡献相称的薪水。应聘材料：1. 个人简历及相关材料（代表性论文、获奖证书等）；2．提供至少2位推荐人的姓名和联系方式。有意者请将个人简历、代表性论文发送至wangzy6@sustech.edu.cn。请将邮件主题设为“应聘-职位-本人姓名”。申请材料将被严格保密。 查看更多 联系我们 联系地址 深圳市南山区学苑大道1088号 办公电话 0765-88018040 电子邮箱 wangzy6@sustech.edu.cn