基本信息INFORMATION
胡保卫
联系方式 CONTACT
0575-88342955,hbw@usx.edu.cn
Scopus Author ID: 25634434300

站点计数器SITE COUNTER
科研成果
一、近年来主要发表论文
1.(通讯)New insights into the primary roles of diatomite in the enhanced sequestration of UO22+ by zerovalent iron nanoparticles: An advanced approach utilizing XPS and EXAFS. Applied Catalysis B-Environmental, 193(2016),189–197.(高被引)
2.(第一)X-ray absorption fine structure study of enhanced sequestration of U(VI) and Se(IV) by montmorillonite decorated zerovalent iron nanoparticles. Environmental Science: Nano. 2016,3,1460–1472.(高被引)
3.(第一)Macroscopic and Spectroscopic Insights into the Mutual Interaction of Graphene Oxide, Cu(II), and Mg/Al Layered Double Hydroxides, Chemical Engineering Journal, 313 (2017), 527–534 .
4.(第一)New insights into Th(IV) speciation on sepiolite:Evidence for EXAFS and modeling investigation, Chemical Engineering Journal, 322 (2017) ,66-72.(高被引)
5.(第一)Macroscopic and spectroscopic studies of the enhanced scavenging of Cr(VI) and Se(VI) from water by titanate nanotube anchored nanoscale zero-valent iron,Journal of Hazardous Materials,336 (2017) ,214-221.(高被引)
6.(通讯)Adsorption and co-adsorption of graphene oxide and Ni(II) on iron oxides: A spectroscopic and microscopic investigation. Environmental Pollution,233(2018) ,125-131.(高被引,热点)
7.(通讯)Plasma-grafted polyamine/hydrotalcite as high efficient adsorbents for retention of uranium (VI) from aqueous solutions,Chemical Engineering Journal,341(2018),103-111.
8.(通讯)Constructing sphere-like cobalt-molybdenum-nickel ternary hydroxide and calcined ternary oxide nanocomposites for efficient removal of U(VI) from aqueous solutions,Chemical Engineering Journal,352(2018),360-370.(高被引)
9.(通讯)Unexpected ultrafast and high adsorption of U(VI) and Eu(III) from solution using porous Al2O3 microspheres derived from MIL-53,Chemical Engineering Journal, 353(2018),157-166.(高被引)
10.(通讯)A novel multi-shelled Fe3O4@MnOx hollow microspheres for immobilizing U(VI) and Eu(III), Chemical Engineering Journal, 2019(355), 697-709.(高被引)
11.(第一)Plasma-enhanced amidoxime/magnetic graphene oxide for efficient enrichment of U(VI) investigated by EXAFS and modeling techniques,Chemical Engineering Journal, 2019(357), 66-74.(高被引)
12.(通讯)Visible-light-driven activation of persulfate over cyano and hydroxyl group co-modified mesoporous g-C3N4 for boosting bisphenol A degradation, JOURNAL OF MATERIALS CHEMISTRY A,2019(07), 5552-5560.(高被引)
13.(通讯)Enhanced Photoreduction of U(VI) on C3N4 by Cr(VI) and Bisphenol A: ESR, XPS, and EXAFS Investigation, ENVIRONMENTAL SCIENCE & TECHNOLOGY,2019(53), 6454-6461.(高被引,热点)
14.(通讯)Visible-light-driven N-2-g-C3N4 as a highly stable and efficient photocatalyst for bisphenol A and Cr(VI) removal in binary systems,CATALYSIS TODAY,2019(335),110-116.(高被引,热点)
15.(通讯)Ultrahigh sorption and reduction of Cr(VI) by two novel core-shell composites combined with Fe3O4 and MoS2. Journal of hazardous materials,2019(379), 120797. (热点)
16.(通讯)N-acetylcysteine attenuates PM2.5-induced apoptosis by ROS-mediated Nrf2 pathway in human embryonic stem cells, SCIENCE OF THE TOTAL ENVIRONMENT, 2019(666), 713-720.
17.(第一)nutrient-immobilized biochar: A novel permeable reactive barrier filler for Cr(VI) removal,JOURNAL OF MOLECULAR LIQUIDS,2019(286) 110876.
18.(通讯)Highly efficient enrichment mechanism of U(VI) and Eu(III) by covalent organic frameworks with intramolecular hydrogen-bonding from solutions,Applied Surface Science, 2020(28), 144403.
19.(通讯)Synthesis of flexible cross-linked cryptomelane-type manganese oxide nanowire membranes and their application for U(VI) and Eu(III) elimination from solutions, CHEMICAL ENGINEERING JOURNAL,2020(381), 122744.(高被引)
20.(通讯)Sorption Behaviors and Mechanisms of Eu(III) on Rice Straw-derived Biochar, JOURNAL OF INORGANIC MATERIALS,2020(35), 390-398.(封面文章)
21.(通讯)Synergistic removal and reduction of U(VI) and Cr(VI) by Fe3S4 micro-crystal, CHEMICAL ENGINEERING JOURNAL,2020(385) , 123909 .(高被引)
22.(通讯)Cultivation of granules containing anaerobic decolorization and aerobic degradation cultures for the complete mineralization of azo dyes in wastewater, CHEMOSPHERE,2020(246), 125753.
23.(通讯)The magnetic covalent organic framework as a platform for high-performance extraction of Cr(VI) and bisphenol a from aqueous solution, JOURNAL OF HAZARDOUS MATERIALS,2020(393), 122353.
24.(通讯)Efficient removal of U(VI) from aqueous solutions using the magnetic biochar derived from the biomass of a bloom-forming cyanobacterium (Microcystis aeruginosa),CHEMOSPHERE,2020(254), 126898.
25.(通讯)Adsorption and mechanistic study of the invasive plant-derived biochar functionalized with CaAl-LDH for Eu(III) in water. Journal of environmental sciences (China),20209(96):‏ 127-137.
26.(通讯)Construction of Core-Shell MOFs@COF Hybrids as a Platform for the Removal of UO22+ and (通讯)Eu3+ Ions from Solution,ACS APPLIED MATERIALS & INTERFACES,2021(13),13883-13895.
27.In-situ growth of COF on BiOBr 2D material with excellent visible-light-responsive activity for U(VI) photocatalytic reduction,SEPARATION AND PURIFICATION TECHNOLOGY,2021(279),119627.
28.(通讯)Effective adsorption and immobilization of Cr(VI) and U(VI) from aqueous solution by magnetic amine-functionalized SBA-15,SEPARATION AND PURIFICATION TECHNOLOGY,2022(282).
29.(通讯)Immobilization of U(VI) onto covalent organic frameworks with the different periodic structure by photocatalytic reduction,APPLIED CATALYSIS B-ENVIRONMENTAL,2023(326),122398.
30,通讯)Electro-adsorption and reduction of Uranium(VI) by Fe3O4@COFs electrode with enhanced removal performance,CHEMICAL ENGINEERING JOURNAL,2023(474),145598.
二、书籍
1.著,土壤污染修复技术研究与应用,浙江科技出版社,“十三五”国家重点出版物出版规划项目,2020.12.
2.著,“五水共治”多中心治理模式研究,中国环境出版社,2020.01.
3.著,城市河流生态修复研究,浙江大学出版社,2018.9.
4.主编,生态文明知识读本,浙江科技出版社,2013.10.
5.主编,公民生态文明知识读本,浙江科技出版社,2013.05.
6.主编,城市居民环保知识读本,浙江科技出版社,2011.06.
7.参编,转型 创新 蝶变 绍兴改革开放40年研究,浙江改革开放40年研究系列(地方篇),浙江人民出版社,2018.10.
8.参编,中国水环境安全,湖北科学技术出版社,2021.11.
三、专利
1.一种铀污染地下水的净化检测净化装置,201610347277.0 .(发明,1/2)
2.过滤复合层、过滤拦截网及其应用方法,ZL201210083586.3.(发明,2/5)
3.过滤复合层及其用于入库水流过滤的应用方法, ZL201210083520.4.(发明,2/5)
4.一种柠檬酸三丁酯的制备方法,ZL201410704388.3.(发明,2/3)
5.一种绍兴黄酒和一种加快绍兴黄酒老熟的方法,CN202110706416,(发明,5/9)
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