科研论文和专利
依托国家工程实验室及国家级科研项目,致力于新型膜分离技术的开发与应用,已发表SCI论文30余篇,高被引论文2篇;撰写英文专著章节1篇;以第一发明人申请中国发明专利10项。
代表性论文
[1] Zhang, S.; Chen, J.; Chen, W.; Su, Y.; Gou, Q.; Yuan, R.; Wang, Z.; Wang, K.; Zhang, W.; Hu, X.; Zhang, Z.; Wang, P.; Wan, F.; Liu, J.; Li, B.; Wang, Y.*; Zhang, G.*; Li, M.*; Sun, J.* Regulating Water Molecules via Bioinspired Covalent Organic Framework Membranes for Zn Metal Anodes. Angew. Chem. Int. Ed. 2025, 64, e202424184. (JCR 一区, IF: 16.1)
[2] Wang, Y.; Xu C.; Li, B.; Tian M.*; Liu M.; Zhu D.; Dou S.; Zhang Q.; Sun J.* Tailoring a Transition Metal Dual-Atom Catalyst via a Screening Descriptor in Li-S Batteries. ACS Nano. 2024, 18(51), 34858-34869. (JCR一区, IF: 15.8)
[3] Shang, Y.; Li, W.; Ma, Y.; Li, B.; Xu, Q.; Du, Y.; Peng, Y.; Wang, Y.*; Zhu, Y.* Rapid Hole Generation via D–A Structure-Dependent Built-In Electric Field of Deacetylated Chitin-PDI for Efficient Photocatalytic Oxidation. Adv. Funct. Mater. 2024, 34(45), 2406533. (JCR一区, IF: 18.5)
[4] Zhang, H.; Wang H; Duan, P.; Lei Q.; Li, B.; Zhu D.*; Tian M.*; Sun J.*; Sun J.*; Wang, Y.* Harmonizing Cobalt Atom-Cluster Moieties with Selective Oxygen Functional Groups for Augmented Electrocatalytic H2O2 Production. Adv. Funct. Mater. 2024, 35, 2417090. (JCR一区, IF: 18.5)
[5] Wang, Y.*; Li, B.; Chen G.; Wu Y.; Tian M.*; Peng Y.; Dou S.; Li L.*; Sun J.* Refining Metal-Free Carbon Nanoreactors through Electronic and Geometric Comodification for Boosted H2O2 Electrosynthesis toward Efficient Water Decontamination. Environ. Sci. Technol. 2024, 58(49), 21893-21903. (JCR一区, IF: 10.6)
[6] Wang, Y.; Ma, J.; Zhu, J.; Ye, N.; Zhang, X.; Huang, H.* Multi-walled carbon nanotubes with selected properties for dynamic filtration of pharmaceuticals and personal care products. Water Res. 2016, 92, 104-112. (JCR一区, IF: 9.13)
[7] Wu, Y.; Wang, Y.*; Chen, R.; Xu, J.; Wang, Y.; Zhang, H.; Ding, Y.; Li, B.; Dong, S.*; Dou, S.; Zhang, X.*; Sun, J.*; Sun, J.* On-site catalytic wastewater remediation by sustainably produced H2O2 via scalable single-atomic Fe-incorporated Janus membrane. Appl. Catal. B: Environ. 2024, 343, 123533. (JCR一区, IF: 22.1)
[8] Ding, Y.; Yan, T.; Wu, J.; Tian, M.*; Lu, M.; Xu, C.; Gu, J.; Zhao, H.; Wang, Y.*; Pan, X.; Dou, S. X.; Zhang, L.*; Sun, J.* Imparting selective polysulfide conversion via geminal-atom moieties in lithium-sulfur batteries. Appl. Catal. B: Environ. 2024, 343, 123553. (JCR一区, IF: 22.1)
[9] Wu, Y.; Ding, Y.; Han, X.; Li, B.; Wang, Y.*; Dong, S.; Li, Q.*; Dou, S.; Sun, J.* Modulating coordination environment of Fe single atoms for high-efficiency all-pH-tolerated H2O2 electrochemical production. Appl. Catal. B: Environ. 2022, 315, 121578. (JCR一区, IF: 22.1)
[10] Wang, Y.*; Du, Y.; Duan, P.; Li, B.*; Li, J.; Zhu, Y.* Asymmetrical facet-oriented anisotropic charge migration of MIL-101(Fe) with internal electric field-steered photogenerated holes for boosting photocatalytic oxidation. Appl. Catal. B: Environ. 2025, 361, 124564. (JCR一区, IF: 22.1)
[11] Wang, F.; Li, M.; Zhang Z.; Du, Y.; Shang, Y.; Li, W.*; Zhu, Y.; Wang, Y.* Dopamine-perylene diimide polymer with a donor–acceptor structure enhance interfacial electric field for improved H2O2 photosynthesis. Appl. Catal. B: Environ. 2025, 366, 125057. (CR一区, IF: 22.1)
[12] Wang, Y.*; Ma, Y.; Wang, F.*; Liu, M.; Zhu, Y. Engineering an A-D-A structure to enhance internal electric fields in silica-PDI-decorated vertical graphene for efficient photocatalytic oxidation. Chem. Eng. J. 2024, 497, 154846. (JCR一区, IF: 13.4)
[13] Xu, C.; Zhao, W.; Ma, H.; Wang, H.; Wang, Y.* Tailored design of well-defined hierarchical nitrogen-doped carbon via salt-confined strategy for selective Cd(Ⅱ) adsorption. Chem. Eng. J. 2022, 446, 137222. (JCR一区, IF: 13.4)
[14] Shang, Y.; Xu, Q.; Gao, Z.; Yang, J.; Li, B.; Wang, Y.*; Peng, Y. Enhanced phosphate removal from practical wastewater via in-situ assembled dimension-engineered MOF@carbon heterostructures. Chem. Eng. J. 2022, 428, 132536. (JCR一区, IF: 13.4)
[15] Wang, Y.*; Gao, Z.; Shang, Y.; Qi, Z.; Zhao, W.*; Peng, Y.* Proportional Modulation of Zinc-Based MOF/Carbon Nanotube Hybrids for Simultaneous Removal of Phosphate and Emerging Organic Contaminants with High Efficiency. Chem. Eng. J. 2021, 417, 128063. (JCR一区, IF: 13.4)
[16] Wu, Y.; Tian, Z.; Yuan, S.; Qi, Z.; Feng, Y.; Wang, Y.*; Huang, R.; Zhao, Y.; Sun, J.; Zhao, W.; Guo, W.; Feng, J.; and Sun, J.* Solar-Driven Self-Powered Alkaline Seawater Electrolysis via Multifunctional Earth-Abundant Heterostructures. Chem. Eng. J. 2021, 411, 128538. (JCR一区, IF: 13.4)
[17] Wang, Y.; Zhao, W.; Qi, Z.; Zhang, L.; Zhang, Y.; Huang, H.; Peng, Y.* Designing ZIF-8/hydroxylated MWCNT nanocomposites for phosphate adsorption from water: Capability and mechanism. Chem. Eng. J. 2020, 394, 124992. (JCR一区, IF: 13.4)
[18] Wang, Y.; Huang, H.*; Xiu, W. Influence of wastewater precoagulation on adsorptive filtration of pharmaceutical and personal care products by carbon nanotube membranes. Chem. Eng. J. 2018, 331, 66-75. (JCR一区, IF: 13.4. 高被引)
[19] Wang, Y.; Zhu, J.; Cho, H-H; Huang, H.* Carbon nanotube composite membranes for microfiltration of pharmaceuticals and personal care products: Capabilities and potential mechanisms. J. Membrane Sci. 2015, 479, 165-174. (JCR一区, IF: 8.4)
[20] Wang, Y.; Liu, Y.; Yu, Y; Huang, H.* Influence of CNT-rGO composite structures on their permeability and selectivity for membrane water treatment. J. Membrane Sci. 2018, 551, 326-332. (JCR一区, IF: 8.4)
[21] Xu, C.; Wang, H.; Shang, Y.; Li, B.; Yu, D.; Wang, Y.* Highly efficient Cd(II) removal using 3D N-doped carbon derived from MOFs: Performance and mechanisms. J. Hazard. Mater. 2022, 436, 129149. (JCR一区, IF: 12.2)
[22] Wang, Y.*; Shang, Y.; Gao, Z.; Qi, Y., Li, M., Huang, H. Modulation of reduced graphene oxide membrane for low-fouling wastewater filtration: Membrane structure, wastewater property, and DFT calculation. J. Clean. Prod. 2021, 321, 128982. (JCR一区, IF: 9.8)
[23] Wang, Y.*; Shang, Y.; Sun, X.; Yang, Q.; Zhang, Y*. Enhancing Freshwater Production via Customizable and Highly Efficient Solar-Driven Seawater Desalination. ACS Appl. Mater. Interfaces 2023, 15, 40595-40605. (JCR一区, IF: 8.5)
[24] Li, B.; Xu, C.; Yu, D.; Wang, Y.*; Peng, Y. Enhanced phosphate remediation of contaminated natural water by magnetic zeolitic imidazolate framework-8@engineering nanomaterials (ZIF8@ENMs). J. Colloid Interface Sci. 2022, 613, 71-83. (JCR一区, IF: 9.4)
[25] Shang, Y.; Li, B.; Xu, C.; Zhang, R.; Wang, Y.* Biomimetic Janus Photothermal Membrane for Efficient Interfacial Solar Evaporation and Simultaneous Water Decontamination. Sep. Purif. Technol. 2022, 298, 121597. (JCR一区, IF:8.2)
[26] Wang, Z.; Zhang, J.; Wen, T.; Liu, X.; Wang, Y.*; Yang, H.; Sun, J.; Feng, J.; Dong, S.*; Sun, J.* Highly effective remediation of Pb(II) and Hg(II) contaminated wastewater and soil by flower-like magnetic MoS2 nanohybrid. Sci. Total Environ. 2020, 699, 134341. (JCR一区, IF: 8.2)
[27] Wang, Y.; Qing Y.; Huang, H.* Effective adsorption of trace phosphate and aluminum in realistic water by carbon nanotubes and reduced graphene oxides. Sci. Total Environ. 2019, 662, 1003-1011. (JCR一区, IF: 8.2)
[28] Wang, Y.; Zhao, W.; Qi, Z.; Zhang, L. Peng, Y.* Phosphate removal by ZIF-8@MWCNT hybrids in presence of effluent organic matter Adsorbent structure, wastewater quality, and DFT analysis. Sci. Total Environ. 2020, 745, 141054. (JCR一区, IF: 8.2)
[29] Wang, Y.; Qing Y.; Dong, J.; Huang, H.* Competitive adsorption of PPCP and humic substances by carbon nanotube membranes: Effects of coagulation and PPCP properties. Sci. Total Environ. 2018, 619-620, 352-359. (JCR一区, IF: 8.2)
[30] Wang, Y.; Wei, X.; Qi, Y.; Huang, H.* Efficient removal of bisphenol-A from water and wastewater by Fe2O3-modified graphene oxide. Chemosphere 2021, 263, 127563. (JCR一区, IF: 8.1)
[31] Wang, Y.; Fu, W.; Shen, Y.; Badireddy, A.R.; Zhang, W.; Huang, H.* Hyperspectral Imaging Microscopy of Acetaminophen Adsorbed on Multiwalled Carbon Nanotubes. Langmuir 2018, 34(44), 13210-13218. (JCR二区, IF: 3.7)
[32] Wang, Y.; Xiu, W.; Huang, H.* Comparison of chemical, ultrasonic and thermal regeneration of carbon nanotubes for acetaminophen, ibuprofen, and triclosan adsorption. RSC Adv. 2017, 7(83), 52719-52728. (JCR二区IF: 3. 9)
[33] Wang, Y.; Huang, H.* Advanced Nanomaterials for Membrane Synthesis and Its Applications: Carbon nanotube composite membranes for microfiltration of pharmaceuticals and personal care products. Micro&Nano Technologies Series. Woei-Jye Lau, Ahmad Fauzi Ismail, Arun Isloor, Amir Al-Ahmed. Chapter 8, 183-202.
代表性专利
[1] 王艺霏、尚雅鑫、李贝贝、徐晴、彭永臻,自浮式高效去除有机染料及实现清洁水再生的 MXene-CNT光热复合膜及其制备方法,申请号:202110015189.1. 申请日期:2021年1月6日;专利号:ZL 2021 1 0015189.1,授权日期:2022年11月4日(已授权)。
[2] 王艺霏、徐丛磊、王豪、于丹宁、徐晴,一种高效去除重金属污染物的多层氮掺碳材料的制备方法,申请号:202210274183.0. 申请日期:2022年3月21日;专利号:ZL 2022 1 0274183.0,授权日期:2024年2月6日(已授权)。
[3]张莉、刘耕源、杨嘉春、许可宸、王艺霏.厌氧氨氧化污泥胞外聚合物分子结构表征的系统及方法. 发明专利. 申请号:CN201910296664.X. 申请日期:2018年6月.
[4] 王艺霏、张莉、王豪、侯春艳,一种高效去除痕量有机污染物的 CNT-GO 复合膜的制备,申请号:201910648052.2. 申请日期:2019年7月.
[5] 王艺霏,组合工艺再生用于水中微污染物去除的纳米复合膜,申请号:201910671595.6. 申请日期:2019 年7月.
[6] 王艺霏、李贝贝、杨景素、祁梓原、尚雅鑫、彭永臻,一种去除污水中磷酸盐的 MOF-C复合材料的制备方法,申请号:202110029242.3. 申请日期:2021年1月11日。
[7] 王艺霏、徐丛磊、王豪、于丹宁、徐晴,一种高效去除重金属污染物的多层氮掺碳材料的制备方法,申请号:202210274183.0. 申请日期:2022年3月21日。
[8] 王艺霏、尚雅鑫、李贝贝、徐丛磊、孙雪娣,一种三维太阳能蒸发器及其制备方法,申请号:202211325619.0. 申请日期:2023年1月4日。
[9] 王艺霏、杜妍、王豪、尚雅鑫,一种盐模板限域氮掺杂碳膜及其制备方法和应用,申请号:CN202311744097.2. 申请时间:2023年12月19日。
[10] 王艺霏、孙雪娣、刘冬月、赖俊蓓,一种铁单原子修饰改性铜膜及其制备方法与应用,申请号:202411254342.6. 申请日期:2024 年 9 月 9 日。
