中南林业科技大学化学与化工学院,副教授
电子邮件:wei_yuanfeng@csuft.edu.cn
电 话:18390222123
籍 贯:湖南隆回
学 历:博士(湖南大学;化学工程与技术)
研究方向
1、生物质材料的改性及其在环境领域的应用;
2、多功能纳米材料的设计与制备
3、电催化技术在污水净化的应用。
项目
1、国家自然科学基金青年科学基金项目:富缺陷分级多孔氧化-吸附双型位点MOFs强化去除水中三价砷的性能和机制研究;
2、湖南省自然科学基金面上项目:多类型吸附位点竹炭纤维气凝胶广谱重金属吸附剂的构建、性能及机制研究;
3、湖南省教育厅科学研究优秀青年项目:氧化-吸附双功能铁基纤维素纳米纤维的设计、制备及其深度去除水中As(Ⅲ)的效能和机理研究;
4、湖南省自然科学基金青年项目:基于MOFs 氧化-吸附双功能材料的制备及其深度去除水中As(Ⅲ)的效能和机理研究。
代表性论文
[1] Ting Wang, Maosong Zhao, Ran An, Kong Yang, Yuanfeng Wei *, et al. Hydroxyl-enriched cerium oxide-chitosan hybrid macroporous beads for arsenite deep removal: Batch and column adsorption. Chemical Engineering Journal, 531 (2026) 174025
[2] Yuxin Li, Zhimin Wang, Yuanfeng Wei *, et al. Enhanced arsenite removal in water using multifunctional UiO-66-NH2 embedded chitosan biocomposite beads: defects, oxidation and adsorption. Chemical Engineering Journal, 523 (2025) 168367
[3] Zhimin Wang, Zijun Lu, Yufen Xia, Yuanfeng Wei*, et al. L-cysteine-grafted polyacrylonitrile sheets with amphoteric adsorption sites enabling efficient removal of Hg(II) from acidic wastewater. Water Research, 282 (2025) 123624.
[4] Yuanfeng Wei*, Yuxin Li, et al. Enhanced As(III) removal using N-chlorosulfonamide-functionalized ferrihydrite chitosan bionanocomposite hierarchical porous beads: Oxidation and adsorption, Chemical Engineering Journal, 503 (2025) 158321.
[5] Yufen Xia, Zhimin Wang, Huiling Liu*, Yuanfeng Wei*, Lanlan Yu, Chengbin Liu*, Deep removal of thallium(I) in water by Cu2(OH)3Cl-Fe2O3 on porous carbon foam coupled with peroxymonosulfate: From basic research to application potential. Separation and Purification Technology, 2025, 368, 132976.
[6] Yufen Xia, Gang Liao, Zhimin Wang, Yuanfeng Wei*, Huiling Liu*, Yanhong Tang, Haifang Tang, Xiangxiong Liu, Jinfang Shi, Chengbin Liu*, Efficient and deep adsorption of thallium(I) from complex water based on hard-soft acid-base theory. Separation and Purification Technology, 2025, 360, 131221
[7] Xiangxiong Liu, Jing Zhao, Yuanfeng Wei*, Zhimin Wang, Maosong Zhao, Yufen Xia, Chengbin Liu*. Enhanced As(III) removal from water using an oxidative UiO-66-Cl anchored carbon framework: oxidation and adsorption. Environmental Science Water Research & Technology, 2025,11, 1889-1897.
[8] Zhimin Wang, Yufen Xia, Yuanfeng Wei*, et al. Deep and consecutive removal of Hg2+ from water using a novel dopamine-bridged metal organic framework-carbon sponge composite. Separation and Purification Technology, 2024, 346: 127512.
[9] Jing Zhao, Yuanfeng Wei *, Yufen Xia, et al. Rapid and effective removal of arsenite from water using a novel oxidation-sorption bifunctional MOF. Chemical Engineering Journal, 2023, 476, 146787.
[10] Yuanfeng Wei, Jing Zhao, Chengbin Liu, et al. Deep remediation of As(III) in water by La-Ce bimetal oxide modified carbon framework. Journal of Hazardous Materials, 2023, 451, 131163.
[11] Ruiying Zou, Yuanfeng Wei *, Weijian Yang, et al. Effective removal of arsenite from water using polylactic acid ZIF-8 biocomposite nanofiber. Materials Today Chemistry, 2023, 33, 101723.
[12] Yuanfeng Wei, Jing Zhao, Chengbin Liu, et al. Enhanced arsenite adsorption from water by activated MOF embedded in macroporous chitosan bionanocomposite beads. Materials Today Chemistry, 2022, 26, 101091.
[13] Yuanfeng Wei, Tao Chen, Chengbin Liu, et al. Enhanced lead and copper removal in wastewater by adsorption onto magnesium oxide homogeneously embedded hierarchical porous biochar. Bioresource Technology, 2022, 365, 128146.
[14] Yuanfeng Wei, Weijian Yang, Chengbin Liu, et al. Enhanced removal of As(III) by heterogeneous catalytic oxidation of As(III) on Fe-biochar fibers with H2O2 and hydroxylamine. Chemical Engineering Journal, 2022, 428, 131200.
[15] Weijian Yang, Zhimin Wang, Yuanfeng Wei *, High-efficiency and fast removal of As(III) from water by cerium oxide needles decorated macroporous carbon sponge. Chemical Engineering Journal, 2022, 446, 136740.
[16] Tao Chen, Yuanfeng Wei *, Weijian Yang, Chengbin Liu*. Highly efficient As(III) removal in water using millimeter-sized porous granular MgO-biochar with high adsorption capacity. Journal of Hazardous Materials, 2021, 416, 125822.
[17] Wei Shudan 1, Wei Yuanfeng 1, Tao Chen, et al. Porous lithium ion sieves nanofibers: General synthesis strategy and highly selective recovery of lithium from brine water. Chemical Engineering Journal 2020, 379, 122407.
[18] Yuanfeng Wei, Hui Liu, Chengbin Liu, et al. Fast and efficient removal of As(III) from water by CuFe2O4 with peroxymonosulfate: effects of oxidation and adsorption. Water Research, 2019, 150, 182-190.
[19] Yuanfeng Wei, Shudan Wei, Chengbin Liu, et al. Efficient removal of arsenic from groundwater using iron oxide nanoneedle array-decorated biochar fibers with high Fe utilization and fast adsorption kinetics. Water Research, 2019, 167, 115107.
[20] Yuanfeng Wei, Xingwen Yu, Chengbin Liu, et al. Enhanced arsenite removal from water by radially porous Fe-chitosan beads: adsorption and H2O2 catalytic oxidation, Journal of Hazardous Materials, 2019,373,97–105.
[21] Xingwen Yu 1, Yuanfeng Wei 1, Chengbin Liu, et al. Ultrafast and deep removal of arsenic in high-concentration wastewater: A superior bulk adsorbent of porous Fe2O3 nanocubes-impregnated graphene aerogel. Chemosphere, 2019, 222, 258-266.
[22] Yuanfeng Wei, Chengbin Liu, Shenglian Luo, et al. Deep oxidation and removal of arsenite in groundwater by rationally positioning oxidation and adsorption sites in binary Fe-Cu oxide/TiO2. Chemical Engineering Journal 2018, 354, 825–834.
[23] Yuanfeng Wei, Yongfei Li, Ying Tan, et al. Short-channeled mesoporous Zr-Al-SBA-15 as a highly efficient catalyst for hydroxyalkylation of phenol with formaldehyde to bisphenol F. Chemical Engineering Journal, 2016, 298, 271–280.
专利
[1]刘承斌,唐艳红,韦淑丹,魏元峰等. 一种锂离子筛吸附剂的制备方法及其产品与应用,CN110090614B,2021-08-27.
[2]刘玉堂,马建洪,魏元峰等. 一种双网络水凝胶吸附剂及其制备方法和作为重金属吸附剂的应用,CN107082894B,2019-08-06.
[3]李勇飞,魏元峰,刘跃进等. 一种片状Al-SBA-15介孔分子筛催化合成双酚F的方法,CN104086373B,2016-02-03.