个人信息
教师姓名:林璋

学位:博士学位

学历:研究生(博士后)

职称:教授

所在单位:冶金与环境学院

学术荣誉:
国家杰出青年科学基金获得者
国家杰出青年科学基金获得者
国家百千万人才工程
国家级突出贡献专家
政府特贴
曾获荣誉:
第十五届”挑战杯“广东省优秀指导教师奖
2017年度”长江学者奖励计划“特聘教授
广东省“珠江人才计划”第六批引进创新创业团队带头人
第二批国家“万人计划”科技创新领军人才
国务院政府特殊津贴
创新人才推进计划中青年科技创新领军人才
中科院福建物质结构研究所2011-2012年度”巾帼建功先进个人“
国家百千万人才工程”有突出贡献中青年专家“
首届福建省青年科学家协会优秀会员
第十六届运盛(福建)青年科技奖
福建青年科技奖
福建省“巾帼建功“标兵
中科院研究生院长奖学金优秀奖
个人简介

     

      林璋,中南大学教授,教育部长江学者、国家杰出青年科学基金获得者、多项国家高层次人才项目入选者、英国皇家化学学会会士、国家重金属污染防治工程技术研究中心常务副主任、中南大学环境科学与工程学科带头人;承担国家重点研发项目、国家自然科学基金重点项目、中科院先导A、国家杰出青年科学基金等重要科研任务20余项。在J. Am. Chem. Soc., Angew. Chem., ES&T, Nano Lett., Nat. Commun., Small, PNAS, Joule等期刊共发表 SCI 论文 300余篇,SCI引用逾万次。授权发明专利90余项(其中PCT专利10余件),并结合污染控制创新理论与行业实际需求,完成了多项工程案例,受到了同行专家的高度认可,技术被列入国家清洁生产先进技术目录。作为第一完成人获高等学校科学研究优秀成果奖、中国有色金属工业科学技术奖一等奖福建省科学技术进步奖一等奖、中国专利奖优秀奖等科技奖励。


研究方向:

      长期从事重金属污染控制化学研究,致力于解决污染控制工程中的科学问题。研究方向主要包括:1) 表界面调控晶体生长理论在危废重金属深度分离和高效稳定中的应用研究;2) 纳米技术对水中低浓度重金属的深度提取及富集理论;3) 新材料对工业二氧化碳废气的能源化转化;4) 地质微生物对重金属的转化及成矿固定原理。


学术任职: 

     •美国威利(Wiley)期刊CleanMat副主编

     •英国皇家化学学会(RSC)期刊Environ. Sci.: Nano副主编

     •荷兰爱思唯尔(Elsevier)期刊Eco-Environment&Health副主编

     •英国皇家化学学会会士(Fellow of the Royal Society of Chemistry,FRSC)

     •中国重金属污染防治专业委员会副主任委员


代表奖项与荣誉称号:

     • 2022年高等学校科学研究优秀成果奖(自然科学奖,第一完成人)

     • 2021年英国皇家化学学会会士(Fellow of the Royal Society of Chemistry,FRSC)

     • 2021年巴塞尔公约亚太分会特殊贡献奖

     • 2020年中国有色金属工业科学技术奖一等奖(第一完成人)

     • 2019年中国专利优秀奖(第一完成人)

     • 2019年福建省科学技术进步奖一等奖(第一完成人)

     • 2017年教育部长江学者计划特聘教授  

     • 2016年中组部“万人计划”科技创新领军人才

     • 2015年国务院政府特殊津贴 

     • 2014年科技部中青年科技创新领军人才 

     • 2011年国家杰出青年科学基金


主要代表作:

[1]. Zhang, W. C; Zhang, F. L.; Liu, S. L.; Pang, W. K., Lin, Z.*; Guo, Z. P.*; Chai, L. Y., A Regulating the reduction reaction pathways via manipulating the solvation shell and donor number of the solvent in Li-CO2 chemistry. Proceedings of the National Academy of Sciences 2023, 120(14), e2219692120.

[2]. Zhang, L. J.; Zhou, H. F.; Yang, X. J.; Zhang, S. B.; Zhang, H. M.; Yang, X.; S, X. T.;Z, J. W.*; Lin, Z.*, Boosting Electroreduction Kinetics of Nitrogen to Ammonia via Atomically Dispersed Sn Protuberance. Angewandte Chemie International Edition 2023, 62(13), e202217473.

[3]. Zhuang, G. X.; Yang, B. X.; Jiang, W. S.; Ou, X. W.; Zhao, L.; Wen, Y. L.; Zhuang, Z. Y.*; Lin, Z.*; Yu, Y.*, Spatially separated oxygen vacancies and nickel sites for ensemble promotion of selective CO2 photoreduction to CO. Cell Reports Physical Science 2022, 3(2), 100724.

[4]. Tian, C.; Lv, J. X.; Zhang, W. C.; Wang, H.; Chao, J.; Chai, L. Y.; Lin, Z.*, Accelerated Degradation of Microplastics at the Liquid Interface of Ice Crystals in Frozen Aqueous Solutions. Angewandte Chemie-International Edition 2022, 61(31), e202206947.(基金委化学部2022年度优秀资助成果巡礼)

[5].  Deng, H.; Tian, C.; Li, L.; Liang, Y.J.; Yan, S.J.; Hu, M.; Xu, W.B.; Lin, Z.*; Chai L.Y., Microinteraction Analysis between Heavy Metals and Coexisting Phases in Heavy Metal Containing Solid Wastes. ACS ES&T Engineering 2022, 2(4), 547-563.

[6]. Lin, L.; Liu, X.M.; Liang, Y.J.; Xu, W.B.; Li, Y.; Lin, Z.*, Analysis of Mineral Phases in Heavy-Metal Hazardous Waste under the Interdisciplinary Scope of Data Science and Chemistry. Progress in Chemistry 2021, 012, 033.

[7]. Tian, C.; Huang, J.Y.; Wang, S.T.; Xu, Y.Y.; Yan, X.; Zhang, Y.; Lin, Z.*; Chai, L.Y., Bio-inspired hydrogen-bond network for extraction of organometal micropollutants from water. Cell Reports Physical Science 2021, 2, 100625.

[8]. Song, H.; Ou, X. W.; Han, B.; Deng, H. Y.; Zhang, W. C.; Tian, C.; Cai, C. F.; Lu, A. H.; Lin, Z.*; Chai, L. Y., An Overlooked Natural Hydrogen Evolution Pathway: Ni2+ Boosting H2O Reduction by Fe(OH)2 Oxidation during Low-Temperature Serpentinization. Angewandte Chemie-International Edition 2021, 60, 24054-24058. (Hot paper)

[9]. Zhang, L.J.; Lin, Z.*, A smart combination strategy could enable higher voltage, longer life asymmetric-electrolyte metal-air batteries. Joule 2021, 5, 1316-1330. 

[10]. Tian, C.; Tu, J.W.; Qiu, P.P.; Wang, S.T.; Song, H.; Xu, Y.Y.; Yan, X.; Lin, Z.*; Chai, L.Y., Ultrastrong Anion Affinity of Anionic Clay Induced by Its Inherent Nanoconfinement. Environmental Science & Technology 2021, 55, 930-940.

[11]. Han, B.; Ou, X.W.; Zhong, Z.Q.; Liang, S.J.; Yan, X.; Deng, H.; Lin, Z.*, Photoconversion of Anthropogenic CO2 into Tunable Syngas over Industrial Wastes Derived Metal-organic Frameworks. Applied Catalysis B: Environmental 2021, 283, 119594.

[12]. Liu, W.Z.; Li, J.; Zheng, J.Y.; Song, Y.; Shi, Z.Q.; Lin, Z.*; Chai, L.Y., Different Pathways for Cr (III) Oxidation: Implications for Cr(VI) Reoccurrence in Reduced Chromite Ore Processing Residue. Environmental Science & Technology 2020, 54, 11971-11979.

[13]. Liu, W.Z.; Song, Y.; Li, J.; Ling, L.; Tian, C.; Liu, X.M.; Lin, Z.*, 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, 1082-1091.

[14]. Zheng. J.Y.; Lv, J.X, Liu, W.Z; Dai, Z.R; Liao, H.Z; Deng, H.; Lin, Z*., Selective Recovery of Cr from Electroplating Nanosludge via Crystal Modification and Dilute Acid Leaching. Environmental Science: Nano 2020, 7, 1593-1601.

[15]. Han, B.; Ou, X.W.; Zhong, Z.Q.; Liang, S.J.; Deng, H.; Lin, Z.*, Rational Design of FeNi Bimetal Modified Covalent Organic Frameworks for Photoconversion of Anthropogenic CO2 into Widely Tunable Syngas. Small 2020, 16, 2002985.

[16]. Ye, X.C.; Lin, Z.H.; Liang, S.J.; Huang, X.H; Qiu, X.Y.; Qiu, Y.C.; Liu, X.M.; Xie, D.; Deng, H.*; Xiong, X.H.*; Lin, Z.*, Upcycling of Electroplating Sludge into Ultrafine Sn@C Nanorods with Highly Stable Lithium Storage Performance. Nano Letters 2019, 19, 1860-1866.

[17]. Liu, X.M.; Song, K.N.; Liu, W.Z.; Xiong, Y.C.; Xu, Y.Y.; Shi, Z.Q.; Zhao, D.Y.; Lin, Z.*, Removal and Recovery of Pb from Wastewater through a Reversible Phase Transformation Process between Nano-flower-like Mg(OH)2 and Soluble Mg(HCO3)2. Environmental Science Nano 2019, 6, 467-477.

[18]. Han, B.; Ou, X.W.; Deng, Z.Q.; Song, Y.; Tian, C.; Deng, H.; Xu, Y.J.; Lin, Z.*, Ni Metal-organic Frameworks Monolayers for Photoreduction of Diluted CO2: Metal Nodes-dependent Activity and Selectivity. Angewandte Chemie-International Edition 2018, 57, 16811-16815.

[19]. Liu, W.Z.; Zheng J.Y.; Ou, X.W.; Liu X.M.; Song Y.; Tian, C.; Lin, Z.*, Effective Extraction of Cr (VI) from Hazardous Gypsum Sludge via Controlling the Phase Transformation and Chromium Species. Environmental Science & Technology 2018, 52, 13336-13342.

[20]. Tian, C.; Zhao, J.; Ou, X.W.; Wan, J.T..; Cai, Y.P.; Lin, Z.*; Dang, Z.; Xing, B.S., Enhanced Adsorption of p-arsanilic Acid from Water by Amine-modified UiO-67 as Examined Using Extended X-ray Absorption Fine Structure, X-ray Photoelectron Spectroscopy, and Density Functional Theory Calculations. Environmental Science & Technology 2018, 52, 3466-3475.

[21]. Tian, C.; Zhao, J.; Zhang, J.; Chu, S.Q.; Dang, Z.; Lin, Z.*; Xing, B.S.*, Enhanced Removal of Roxarsone by Fe3O4@3D Graphene Nanocomposites: Synergistic Adsorption and Mechanism. Environmental Science: Nano 2017, 4, 2134-2143.

[22]. Wu, C.; Tu, J.W.; Liu, W.Z.; Zhang, J.; Chu, S.Q.; Lu, G.N.; Dang, Z.; Lin, Z*., The Double Influence Mechanisms of pH on Arsenic Removal by Nano Zero Valent Iron: Electrostatic Interactions and the Corrosion of Fe0. Environmental Science: Nano 2017, 4, 1544-1552.

[23]. Zhuang, Z.Y.; Chen, H.; Lin, Z.*; Dang, Z., Mn2O3 Hollow Spheres Synthesized Based on an Ion-exchange Strategy from Amorphous Calcium Carbonate for Highly Efficient Trace-level Uranyl Extraction. Environmental Science: Nano 2016, 3, 1254-1258.

[24].  Liu, M.H.; Wang, Y.H.; Chen, L.T.; Zhang, Y.; Lin, Z.*, Mg(OH)2 Supported Nanoscale Zero Valent Iron Enhancing the Removal of Pb(II) from Aqueous Solution. ACS Applied Materials & Interfaces 2015, 7, 7961-7969.

[25].  Pan, X.H.; Liu, Z.J.; Chen, Z.; Cheng, Y.J.; Pan, D.M.; Shao, J.N.; Lin, Z.*; Guan, X.*, Investigation of Cr(VI) Reduction and Cr(III) Immobilization Mechanism by Planktonic Cells and Biofilms of Bacillus Subtilis ATCC-6633. Water Research 2014, 55, 21-29.

[26]. Li, C.R.; Zhuang, Z.Y.; Huang, F.; Wu, Z.C.; Hong, Y.P.; Lin, Z.*, Recycling Rare Earth Elements from Industrial Wastewater with Flowerlike Nano-Mg(OH)2. ACS Applied Materials & Interfaces 2013, 5, 9719-9725.

[27]. Zhuang, Z.Y.; Huang, F.; Lin, Z.*; Zhang, H.Z.*, Aggregation-induced Fast Crystal Growth of SnO2 Nanocrystals. Journal of the American Chemical Society 2012, 134, 16228-16234.

[28]. Liu, W.Z.; Huang, F.; Wang, Y.J.; Zou, T.; Zheng, J.S.; Lin, Z.*, Recycling Mg(OH)2 Nanoadsorbent During Treating the Low Concentration of CrVI. Environmental Science & Technology 2011, 45, 1955-1961.

[29]. Zheng, J.S.; Huang, F.*; Yin, S.G.; Wang, Y.J.; Lin, Z.*; Wu, X.L.; Zhao, Y.B.*, Correlation Between the Photoluminescence and Oriented Attachment Growth Mechanism of CdS Quantum Dots. Journal of the American Chemical Society 2010, 132, 9528-9530.

[30]. Zhang, J.; Huang, F.*; Lin, Z.*, Progress of Nanocrystalline Growth Kinetics Based on Oriented Attachment. Nanoscale 2010, 2, 18-34.

[31]. Cheng, Y.J.; Yan, F.B.; Huang, F.; Chu, W.S.; Pan, D.M.; Chen, Z.; Zheng, J.S.; Yu, M.J.; Lin, Z.*; Wu, Z.Y.*, Bioremediation of Cr(VI) and Immobilization as Cr(III) by Ochrobactrum Anthropi. Environmental Science & Technology 2010, 44, 6357-6363.

[32]. Holman, H.-Y.N.; Wozei, E.; Lin, Z.; Comolli, L.R.; Ball, D.A.; Borglin, S.; Fields, M.W.; Hazen, T.C.; Downing, K.H., Downing. Real-time molecular monitoring of chemical environment in obligate anaerobes during oxygen adaptive response. Proceedings of the National Academy of Sciences of the United States of America 2009, 106(31), 12599-12604.

[33]. Liu, W.Z.; Huang, F.; Liao, Y.Q.; Zhang, J.; Ren, G.Q.; Zhuang, Z.Y.; Zhen, J.S.; Lin, Z.*; Wang, C., Treatment of Cr-VI-containing Mg(OH)2 Nanowaste. Angewandte Chemie-International Edition 2008, 47, 5619-5622.

[34]. Zhang, J.; Lin, Z.*; Lan, Y.Z.; Ren, G.Q.; Chen, D.G.; Huang, F.*; Hong, M.C., A Multistep Oriented Attachment Kinetics: Coarsening of ZnS Nanoparticle in Concentrated NaOH. Journal of the American Chemical Society 2006, 128, 12981-12987.

[35]. Lin, Z.; Gilbert, B.; Liu, Q.L.; Ren, G.Q.; Huang, F.*, A Thermodynamically Stable Nanophase Material. Journal of the American Chemical Society 2006, 128, 6126-6131.

[36]. Gilbert, B.*; Huang, F.; Lin, Z.; Goodell, C.; Zhang, H.; Banfield, J. F., Surface chemistry controls crystallinity of ZnS nanoparticles. Nano Letters 2006, 6(4), 605-610.


部分申请专利:

[1].林璋、梁彦杰、高会芹、李音、颜旭、刘学明、肖睿洋,一种零价铁协同飞灰水热处理生活污泥的方法,专利号:ZL 202210019648.8

[2].林璋、林乐、 梁彦杰、 刘学明、柯勇、颜旭、田晨、刘章斌,一种工业固体废物中重金属赋存关键矿相的分析判定方法,专利号:ZL202110952760.2

[3].林璋、刘炜珍、李莉、柯勇、梁彦杰、李捷、颜旭,一种基于矿相重构的从含铍污泥中分离铍的方法,专利号:ZL202111113231x

[4].林璋、刘炜珍、刘学明、容文聪,Detoxification treatment method for extracting and recovering chromium from waste residues containing Cr(VI),专利号:WO/2018/001090

[5].林璋、刘炜珍、黄丰、廖逸群、庄赞勇,含六价铬废渣的铬分离回收法,专利号:ZL200610135382.4

[6].林璋、刘学明、刘炜珍、邓洪、胡建宏、林佳玮,一种氯化焙烧联合水热矿化处理铬渣的方法,专利号:ZL201810087145.8

[7].林璋、马晓艳、程扬健、栗斌、廖逸群、吴兆贤,苍白杆菌CTS-325及其培养方法以及还原六价铬的应用,专利号:ZL200710009694.5

[8].林璋、洪杨平、吴智诚、李超然,从稀土提炼工业废水中回收稀土的方法,专利号:ZL201310247058.1


















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