刘炜珍

职称:教授 博士生导师

性别:女

电子邮箱:weizhliu@scut.edu.cn

刘炜珍 教授,华南理工大学环境与能源学院,博士生导师,广东省固体废物污染控制与资源化重点实验室主任,污染控制材料与技术教研所所长。2020年国家优秀青年基金获得者,2019年广东特支计划青年拔尖人才。主持国家自然科学基金、国家重点研发计划课题等科研项目10余项,参与国家自然科学基金重点项目、国家重点研发计划项目、广东省珠江人才计划引进创新团队项目(核心成员)等多项科研项目。面向我国大量工业重金属危废的治理需求,针对危废微结构、污染物赋存形态、迁移转化机理、有价元素深度提取和固废资源化高值利用等方面取得了创新性成果和重要贡献。在Angew. Chem. Int. Ed.、Environ. Sci. Technol.、Chem. Eng. J. 等国际重要学术期刊上发表SCI论文90余篇,其中70余篇一区;SCI引用3000多次,h-index 32;获得授权国家发明专利30余项,其中PCT 3项,国外发明专利6项、美国专利2项。获得2020年国家发明专利优秀奖(2/4)和2022年教育部自然科学一等奖(2/10)。

招生专业:

  • 硕士招生专业:学术型硕士:083000|环境科学与工程;专业学位硕士:085700|资源与环境

  • 博士招生专业:学术型博士:083000|环境科学与工程;专业学位博士:085700|资源与环境

工作经历:

  • 2010 - 2012:法国国家科学研究中心(CNRS)Polytech Nantes,博士后

  • 2012 - 2013:法国国家健康与医学研究院(INSERM)U791 LIOAD,博士后

  • 2014 - 至今以高层次引进人才进入华南理工大学环境与能源学院,副教授,教授

教育经历:

  • 2001 - 2005:中国地质大学(武汉)材料与化学学院,本科(获学士学位)

  • 2005 - 2010:中科院福建物质结构研究所,攻读博士学位

社会、学会及学术兼职:

  • 广东省固体废物污染控制与资源化重点实验室主任

  • 污染控制材料与技术教研所所长


研究领域:

  1. 固废污染控制与资源化

  2. 废渣和废水中重金属回收与资源化利用

  3. 环境纳米材料及环境功能材料

科研项目

  • 国家重点研发计划(2022)“循环经济关键技术与装备”重点专项-铝土矿拜耳法溶出赤泥源头减量技术及大规模示范-课题(No. 2022YFC3900902) 主持

  • 国家自然科学基金优秀青年项目(2020)固体废物污染控制化学(No.22022602) 主持

  • 广东特支计划”科技创新青年拔尖人才(2019) 主持

  • 国家重点研发计划(2019)纳米晶生长调控技术回收细颗粒型工业危废中毒性重金属的研究及工程示范(No.2019YFA0210400) 参与

  • 广州市科技计划项目(2018)广东某地历史堆存强碱性铬渣的缓释六价铬治理及其机理研究(No.201804010189) 主持

  • 广东省珠江人才计划引进创新创业团队项目(2016)纳米技术在工业聚集区重金属污染控制中的应用研究(No.2016ZT06N569) 参与

  • 国家自然科学基金青年项目(2016)含硫酸钙微米晶铬渣的晶体生长和表界面作用调控及六价铬分离机制研究(No.21607045) 主持


学术成果

代表性论文

[1] Mao Minlin, Qi Yue, Lu Kaibin, Chen Qin, Xie Xiangta, Li Xiaoqin, Lin Zhang, Chai Liyuan, Liu Weizhen*, Selective Capacitive Recovery of Rare-Earth Ions from Wastewater over Phosphorus-Modified TiO2 Cathodes via an Electro-Adsorption Process, Environmental Science & Technology, 2024, 58(31): 14013-14021

[2] Li Li, Gao Huiqin, Li Jie, Liu Weizhen*, Li Yin, Zeng Zhiyan, Lin Peng, Yu Changyong, Ke Yong*, Li Xiaoqin, Lin Zhang, Chai Liyuan, A new insight into beryllium extraction mechanism from beryllium-containing sludge through key host phase reconstruction and binding energy regulation, Journal of Cleaner Production, 2025, 489: 144667

[3] Huang Hongyi, Liu Shaoyuan, Kang Zeyu, Zhu Yiwen, Zhang Chengbin, Xiang E., Lin Zhang, Liu Weizhen*, Effects of atmosphere and stepwise pyrolysis on the pyrolysis behavior, product characteristics, and N/S migration mechanism of vancomycin fermentation residue, Chemical Engineering Journal, 2024, 498: 155012

[4] Zheng Jiayi, Weng Changzhou, Tian Chen, Zhang Wenchao, Qin Jiemin, Li Xiaoqin, Liu Weizhen*, Zhang Jing, Lin Zhang, Ingenious approach for retrieving valuable metals from gypsum via dehydration–rehydration two-step phase transition, Chemical Engineering Journal, 2024, 491: 152122

[5] Lu Kaibin, Qin Jiemin, Hu Meihua, Hu Limeng, Mao Minlin*, Li Xiaoqin, Lin Zhang, Liu Weizhen*, High-efficiency nickel recovery from spent electroless nickel plating solution: effective degradation of high-concentration nickel complexes to form a nickel ferrite nanomaterial via Fe3O4 catalytic oxidation, Environmental Science: Nano, 2024, 11(3): 900-910

[6] Hu Qimei, Li Li, Li Jie, Sun Xin, Yan Congqi, Mao Minlin, Lin Zhang, Liu Weizhen*, Stabilization of Arsenic Sulfide Sludge to Form Stable Johnbaumite by Alkaline-Oxidative Hydrothermal Treatment, ACS ES&T Engineering, 2024, 4(7): 1657-1667

[7] Liu Jian, Yan Guizhen, Huo Zihui, Mo Yucong, Wen Yuting, Liu Weizhen*, Zhou Hongyu*, Yan Bing, Lin Zhang, Thallium’s Threat to Aquatic Life: Stage-Specific Toxicity in Zebrafish Embryos and Larvae, Environment & Health, 2024, 2(3): 114-125

[8] Sun Conghao, Li Yin, Ke Yong, Zeng Zhiyan, Liu Weizhen*, Lin Zhang, Chai Liyuan, Novel Protic Ionic Liquid for Efficient Extraction of Beryllium with a New Sight of Mechanism, ACS Sustainable Chemistry & Engineering, 2023, 11(43): 15591-15598

[9] Gong Zhiheng, Xiang Xuepeng, Zhong Wenye, Jia Chenghao, Chen Peiyan, Zhang Nian, Zhao Shijun, Liu Weizhen*, Chen Yan*, Lin Zhang, Modulating Metal-Nitrogen Coupling in Anti-Perovskite Nitride via Cation Doping for Efficient Reduction of Nitrate to Ammonia, Angewandte Chemie International Edition, 2023, 135(38): e202308775

[10] Sun Xing, Mao Minlin, Zheng Zhengqiang, Wang Jiaxin, Wu Zhen, Li Xiaoqin*, Lin Zhang, Liu Weizhen*, Solar irradiation accelerates the oxidation of Cr(III) by δ-manganese dioxide, Journal of Hazardous Materials, 2023, 443: 130150

[11] Li Jie, Peng Xiaoqian, Zheng Jiayi, Mao Minlin, Sun Xing, Wang Jiaxin, Li Xiaoqin, Chai Xilin, Lin Zhang, Liu Weizhen*, Simultaneous removal of phosphorus and organic contaminants from phosphogypsum using hydrothermal method for gypsum resource regeneration, Journal of Environmental Chemical Engineering, 2022, 10(5): 108441

[12] Mo Xiaofeng, Liu Xueming, Chen Jianxin, Zhu Shengcai, Xu Wenbin, Tan Kan, Wang Qingwei*, Lin Zhang, Liu Weizhen*, Separation of lattice-incorporated Cr(VI) from calcium carbonate by converting microcrystals into nanocrystals via the carbonation pathway based on the density functional theory study of incorporation energy, Environmental Science: Nano, 2022, 9(5): 1617-1626

[13] Sun Xin, Mao Minlin, Lu Kaibin, Hu Qimei, Liu Weizhen*, Lin Zhang, One-step removal of high-concentration arsenic from wastewater to form Johnbaumite using arsenic-bearing gypsum, Journal of Hazardous Materials, 2022, 424: 127585

[14] Peng Xiaoqian, Mo Siqi, Li Ruonan, Li Jing, Tian Chen, Liu Weizhen*, Wang Yongjing*, Effective removal of the rare earth element dysprosium from wastewater with polyurethane sponge-supported graphene oxide–titanium phosphate, Environmental Chemistry Letters, 2021, 19: 719-728

[15] Sun Xin, Li Jie, Sun Xing, Zheng Jiayi, Wu Zhen, Liu Weizhen*, Zhao Dongye, Lin Zhang, Efficient stabilization of arsenic in the arsenic-bearing lime-ferrate sludge by zero valent iron-enhanced hydrothermal treatment, Chemical Engineering Journal, 2021, 421: 129683

[16] Peng Xiaoqian, Zheng Jiayi, Liu Qian, Hu Qimei, Sun Xing, Li Jie, Liu Weizhen*, Lin Zhang, Efficient removal of iron from red gypsum via synergistic regulation of gypsum phase transformation and iron speciation, Science of the Total Environment, 2021, 791: 148319 

[17] Zheng Jiayi, Li Jing, Ling Lan, Liu Xueming, Kong Silan, Liao Huizhong, Liu Weizhen*, Ning Ping, Lin Zhang, Crystal regulation of gypsum via hydrothermal treatment with hydrogen ion for Cr(VI) extraction, Journal of Hazardous Materials, 2020, 390: 120614 

[18] Liu Weizhen, Song Yao, Li Jing, Ling Lan, Tian Chen, Liu Xueming, Lin Zhang*, Efficient extraction of slowly-released Cr(VI) from nano-sized ion channels in Cr(VI)-ettringite from reduced chromite ore processing residue, Environmental Science: Nano, 2020, 7(4): 1082-1091

[19] Li Jing, Zheng Jiayi, Peng Xiaoqian, Dai Zongren, Liu Weizhen*, Deng Hong, Xi Beidou, Lin Zhang, NaCl recovery from organic pollutants-containing salt waste via dual effects of aqueous two-phase systems (ATPS) and crystal regulation with acetone, Journal of Cleaner Production, 2020, 260: 121044

[20] Chen Guilin, Li Yijuan, Zhong Wentao, Zheng Fenghua, Hu Junhua, Ji Xiaohong, Liu Weizhen*, Yang Chenghao*, Lin Zhang, Liu Meilin, MOFs-derived porous Mo2C–C nano-octahedrons enable high-performance lithium–sulfur batteries, Energy Storage Materials, 2020, 25: 547-554

[21] Li Yijuan, Lei Xueqian, Yuan Yifei, Wu Shuyue, Han Bin, Liu Xueming, Liu Weizhen*, Hu Junhua, Yang Chenghao*, Lin Zhang, Lu Jun*, Fe2P‑decorated N,P Codoped Carbon Synthesized via Direct Biological Recycling for Endurable Sulfur Encapsulation, ACS Central Science, 2020, 6(10): 1827-1834

[22] Liu Weizhen, Li Jing, Zheng Jiayi, Song Yao, Shi Zhenqing, Lin Zhang*, Chai Liyuan, Different Pathways for Cr(III) Oxidation: Implications for Cr(VI) Reoccurrence in Reduced Chromite Ore Processing Residue, Environmental Science & Technology, 2020, 54(19): 11971-11979

[23] Liu Zhangbin, Zheng Jiayi, Liu Weizhen*, Liu Xueming, Chen Yunxuan, Ren Xueqiao, Ning Ping*, Lin Zhang, Identification of the key host phases of Cr in fresh chromite ore processing residue (COPR), Science of the Total Environment, 2020, 703: 135075

[24] Weng Changzhou, Sun Xin, Han Bin, Ye Xucun, Zhong Zuqi, Li Wei, Liu Weizhen*, Deng Hong, Lin Zhang, Targeted conversion of Ni in electroplating sludge to nickel ferrite nanomaterial with stable lithium storage performance, Journal of Hazardous Materials, 2020, 393: 122296

[25] Lei Xueqian, Li Youpeng, Weng Changzhou, Liu Yanzhen, Liu Weizhen*, Hu Junhua, Yang Chenghao*, Lin Zhang, Liu Meilin, Construction of heterostructured NiFe2O4-C nanorods by transition metal recycling from simulated electroplating sludge leaching solution for high performance lithium ion batteries, Nanoscale, 2020, 12(25): 13398-13406 

[26] Liu Weizhen, Weng Changzhou, Zheng Jiayi, Peng Xiaoqian, Zhang Jing*, Lin Zhang*, Emerging investigator series: Treatment and recycling of heavy metals from nanosludge, Environmental Science: Nano, 2019, 6(6): 1657-1673 

[27] Peng Miao, Guan Guijian, Deng Hong, Han Bin, Tian Chen, Zhuang Junyang, Xu Yunyun, Liu Weizhen*, Lin Zhang, PCN-224/rGO nanocomposite based photoelectrochemical sensor with intrinsic recognition ability for efficient p-arsanilic acid detection, Environmental Science: Nano, 2019, 6(1): 207-215

[28] Song Yao, Li Jing, Peng Miao, Deng Ziqi, Yang Jianjun, Liu Weizhen*, Shi Zhenqing, Lin Zhang, Identification of Cr(VI) speciation in ferrous sulfate-reduced chromite ore processing residue (rCOPR) and impacts of environmental factors erosion on Cr(VI) leaching, Journal of Hazardous Materials, 2019, 373: 389-396 

[29] Zhou Xueli, Liu Weizhen, Tian Chen, Mo Siqi, Liu Xueming, Deng Hong*, Lin Zhang, Mussel-inspired functionalization of biological calcium carbonate for improving Eu(III) adsorption and the related mechanisms, Chemical Engineering Journal, 2018, 351: 816-824

[30] Liu Weizhen, Zheng Jiayi, Ou Xinwen, Liu Xueming, Song Yao, Tian Chen, Rong Wencong, Shi Zhenqing, Dang Zhi, Lin Zhang*, Effective Extraction of Cr(VI) from Hazardous Gypsum Sludge via Controlling the Phase Transformation and Chromium Species, Environmental Science & Technology, 2018, 52(22): 13336-13342 

[31] Zhou Xueli, Liu Weizhen*, Zhang Jian, Wu Can, Ou Xinwen, Tian Chen, Lin Zhang*, Dang Zhi, Biogenic Calcium Carbonate with Hierarchical Organic-Inorganic Composite Structure Enhancing the Removal of Pb(II) from Wastewater, ACS Applied Materials & Interfaces, 2017, 9(41): 35785-35793 

[32] Wu Can, Liu Weizhen, Zhang Jing, Chu Shengqi, Shi Zhenqing, Dang Zhi, Lin Zhang*, Mechanisms of synergistic removal of low concentration As(V) by nZVI@Mg(OH)2 nanocomposite, Journal of Physical Chemistry C, 2017, 121(39): 21411-21419 

[33] Liu Weizhen, Huang Feng, Wang Yongjing, Zou Ting, Zheng Jinsheng, Lin Zhang*, Recycling Mg(OH)2 nanoadsorbent during treating the low concentration of CrVI, Environmental Science & Technology, 2011, 45(5): 1955-1961

[34] Liu Weizhen, Huang Feng, Liao Yiqun, Zhang Jing, Ren Guoqiang, Zhuang Zangyong, Zhen Jinsheng, Lin Zhang*, Wang Chen, Treatment of CrVI-containing Mg(OH)2 nanowaste, Angewandte Chemie International Edition, 2008, 47(30): 5619-5622

代表性授权专利

[1] 刘炜珍, 林璋, 刘学明, 荣文聪; 一种铬渣的铬资源回收和脱毒处理方法, 中国, ZL201610502498.0

[2] 刘炜珍, 孙鑫, 郑嘉毅, 林璋, 邓洪, 刘学明; 一种水热与氧化协同提取电镀污泥中铬的方法, 中国, ZL201910930567.1

[3] 刘炜珍, 李婕, 林璋, 王云燕, 李筱琴, 柯勇; 一种稳定化处理含铊污泥的方法, 中国, ZL202210964379.2 

[4] 刘炜珍, 高会芹, 李莉, 黄形中; 一种二次铝灰的资源化处理方法, 中国, ZL202310348500.3

[5] 刘炜珍, 毛敏霖, 齐玥, 胡莉萌, 周睿, 谢祥塔, 林璋, 李筱琴; 一种TiO2/P/C电极材料及其制备方法和应用, 中国, ZL202311127546.9

[6] 刘炜珍, 毛敏霖, 齐玥, 陈绍坚, 胡莉萌, 钟敏骅, 谢祥塔, 周睿; 一种P/C电极材料及其制备方法和在稀土回收中的应用, 中国, ZL202311127628.3

[7] 刘炜珍, 周西兵, 刘绍源; 一种基于酸协同氧化调配水热处理抗生素菌渣的方法, 中国, ZL202211184675.7 

[8] 刘炜珍; 黄宏艺; 刘绍源; 周西兵; 毛敏霖; 一种抗生素菌渣多步热解制备高含量可燃气体的方法, 中国, ZL202311162090.X

[9] 刘炜珍; 黄宏艺; 林璋; 刘绍源; 毛敏霖;一种抗生素菌渣的无害化及资源化处理方法, 中国, ZL202311162066.6

[10] Liu Weizhen, Liu Shaoyuan, Huang Hongyi, Lin Zhang, Mao Minlin; Harmless and resourceful treatment method for antibiotic residue, 美国, US 12318726 B2. 


其它(教学活动/荣誉等)

  • 荣誉:2022年教育部自然科学一等奖(2/10)

  • 2020年国家自然科学基金优秀青年基金获得者

  • 2019年广东省特支计划科技创新青年拔尖人才

  • 2019国家专利优秀奖(第二完成人)

  • 授课课程:固体废物处理与处置、环境纳米材料、科技文献检索、环境工程材料

  • 指导学生情况:现指导博士生10名,硕士生11名