姓名：林东海

职称：金桥特聘教授、上海市东方学者特聘教授

电子邮件：dhlin@sspu.edu.cn

通讯地址:上海市浦东新区金海路2360号

教育背景及工作经历

2019～至今  上海第二工业大学能源与材料学院 金桥特聘教授、东方学者

2018-2019  武汉市农业科学院副研究员、武汉中科志康生物科技有限公司研发总监

2012～2018加拿大国家纳米中心/阿尔伯塔大学（University of Alberta） 博士后

2010～2012加拿大舍布鲁克大学（Universite de Sherbrooke）化学系 博士后

2004～2010厦门大学 物理化学专业 博士（2006提前攻博）

2000～2004南京工业大学 应用化学 学士

上海第二工业大学金桥特聘教授、上海市东方学者特聘教授、硕士生导师，福建警察学院客座教授，厦门市第十五批“双百计划”领军型创业人才，2023年全国归侨先进个人。上海市科技专家、上海市教育评估院学位论文评审专家，上海万博联科技中心产业研究院人才智库专家。上海市侨联第十二届委员、上海市侨青总会第二届理事、上海第二工业大学侨联副主席、浙江省海盐县资源环境科技特派员。美国科学促进会会员、中国化学会会员、中国电化学会会员。Frontiers in Materials评审编辑、Advanced Powder Materials、稀有金属、材料工程、航空材料学报等期刊青年编委，长期担任ACS nano、ACS Applied Materials & Interfaces、Materials Today Chemistry、Rare Metals、Bioelectronics and Bioelectronics、Analytica Chimica Acta、材料工程、材料导报等期刊的审稿人。2004年毕业于南京工业大学应用化学系，2010年于厦门大学化学系获博士学位，导师为孙世刚院士和姜艳霞教授；2010-2018年先后在加拿大舍布鲁克大学(合作导师为电化学阻抗谱专家Andrzej Lasia教授)；加拿大国家纳米中心/阿尔伯塔大学化学系（合作导师为加拿大皇家科学院Jed Harrison院士）；加拿大国家纳米中心/阿尔伯塔大学电子工程系（合作导师为IEEE Fellow、加拿大工程院Jie Chen院士）从事博士后研究。

主讲课程

《大学化学》、《基础化学》、《Applied Electrochemistry》、《电化学原理及应用》、《新能源工程实践》等

研究领域

1.新能源材料电催化；

2. 电/热致变色材料；

3. 食品安全快检仪器及技术研发；

4. 智能传感器；

5. LED钙钛矿量子点。

科研项目

1、全自动电化学食品安全检测技术的研发；武汉市企业技术创新专项，500万（企业自筹450万）， 2018.7-2020.12；

2、 上海高校特聘教授（东方学者）计划项目，100万，2019.1-2021.12。

主要论文

[1] D.-H. Lin, Y.-X. Jiang*, Y. Wang, S.-G. Sun*, Silver Nanoparticles Confined in SBA-15 Mesoporous Silica and the Application as a Sensor for Detecting Hydrogen Peroxide, Journal of Nanomaterials, 2008 (2008) 473791.

[2] D.-H. Lin, Y.-X. Jiang*, S.-R. Chen, S.-P. Chen, S.-G. Sun*, Preparation of Pt nanoparticles supported on ordered mesoporous carbon FDU-15 for electrocatalytic oxidation of CO and methanol, Electrochimica Acta, 67 (2012) 127-132.

[3] D. Lin, X. Zhang, X. Cui, W. Chen*, Highly porous carbons with superior performance for CO₂ capture through hydrogen-bonding interactions, RSC Advances, 4 (2014) 27414–27421.

[4] X. Zhang, D. Lin, W. Chen*, Nitrogen-doped porous carbon prepared from a liquid carbon precursor for CO₂ adsorption, RSC Advances, 5 (2015) 45136-45143.

[5] D. Lin, T. Tang, D. Jed Harrison, W.E. Lee, A.B. Jemere*, A regenerating ultrasensitive electrochemical impedance immunosensor for the detection of adenovirus, Biosensors and Bioelectronics, 68 (2015) 129-134.

[6] D. Lin, A. Lasia*, Electrochemical impedance study of the kinetics of hydrogen evolution at a rough palladium electrode in acidic solution, Journal of Electroanalytical Chemistry, 785 (2017) 190-195.

[7] S. MacKay, G. Abdelrasoul, M. Tamura, D. Lin, Z. Yan, J. Chen*, Using Impedance Measurements to Characterize Surface Modified with Gold Nanoparticles, Sensors 17 (2017) 2141.

[8] L. Shoute, A. Anwar, S. MacKay, G. Abdelrasoul, D. Lin, Z. Yan, A. Nguyen, M.T. McDermott, M. Shah, J. Yang, J. Chen*, X. Li*, Immuno-impedimetric Biosensor for Onsite Monitoring of Ascospores and Forecasting of Sclerotinia Stem Rot of Canola, Scientific Reports, 8 (2018) 12396.

[9] A. Nguyen#, G. Abdelrasoul#, D. Lin#, H. Maadi, J. Tong, G. Chen, R. Wang, A. Anwar, L. Shoute, Q. Fang, Z. Wang*, J. Chen*, Polyethylenimine-coated iron oxide magnetic nanoparticles for high efficient gene delivery, Applied Nanoscience, 8 (2018) 811-821.

[10] D. Lin, K.D. Harris, N.W.C. Chan, A.B. Jemere*, Nanostructured indium tin oxide electrodes immobilized with toll-like receptor proteins for label-free electrochemical detection of pathogen markers, Sensors and Actuators B: Chemical, 257 (2018) 324-330.

[11] W. Jin, D. Lin, A.H. Nguyen, G.N. Abdelrasoul, J. Chen, A. Mar, F. Qian, Q. Fang, I. Kovalchuk, Y. Wang*, J. Chen*, Transfection of Difficult-to-Transfect Rat Primary Cortical Neurons with Magnetic Nanoparticles, Journal of Biomedical Nanotechnology, 14 (2018) 1654-1664.

[12] G.N. Abdelrasoul, S. MacKay, S.Y. Salim, K.P. Ismond, M. Tamura, C. Khalifa, E. Mannan, D. Lin, T. Mandal, R.R. Montgomery, D.S. Wishart, J. Chen*, R.G. Khadaroo*, Non-invasive Point-of-Care Device To Diagnose Acute Mesenteric Ischemia, ACS Sensors, 3 (2018) 2296-2302.

[13] D. Lin, R.G. Pillai, W.E. Lee, A.B. Jemere*, An impedimetric biosensor for E. coli O157:H7 based on the use of self-assembled gold nanoparticles and protein G, Microchima Acta, 186 (2019) 169.

[14] X. Wang, S. Li, L. Xie, X. Li, D. Lin, Z. Zhu*, Low-temperature and highly sensitivity H2S gas sensor based on ZnO/CuO composite derived from bimetal metal-organic frameworks, Ceramics International, 46 (2020) 15858–15866.

[15] X. Li, D. Lin*, K. Lu, X. Chen, S. Yin, Y. Li, Z. Zhang, M. Tang, G. Chen*, Graphene Oxide Orientated by a Magnetic Field and Application in Sensitive Detection of Chemical Oxygen Demand, Analytica Chimica Acta, 1122 (2020) 31-38.

[16] K.-C. Lu, J.-K. Wang*, D.-H. Lin*, X. Chen, S.-Y. Yin, G.-S. Chen, Construction of a novel electrochemical biosensor based on a mesoporous silica/oriented graphene oxide planar electrode for detecting hydrogen peroxide, Analytical Methods, 12 (2020) 2661–2667.（封面文章）

[17] S. Yin, J. Wang*, Y. Li, T. Wu, L. Song, Y. Zhu, Y. Chen, K. Cheng, J. Zhang, X. Ma, D. Lin*, G. Chen, Macroscopically Oriented Magnetic Core-regularized Nanomaterials for Glucose Biosensors Assisted by Self-sacrificial Label, Electroanalysis, 33 (2021) 2216-2225.

[18] X. Chen, K. Lu, D. Lin*, Y. Li, S. Yin, Z. Zhang, M. Tang, G. Chen*, Hierarchical Porous Tubular Biochar Based Sensor for Detection of Trace Lead (II), Electroanalysis, 33 (2021) 473–482.

[19]X. Ma*, X. Li, M. Mai, D. Lin, H. Zhou, L. Zhang, J. Li, Q. Li, D. Chen*, Observation of suppressed photocurrent of plasmonic Au on TiO₂ by a double light beam method, International Journal of Hydrogen Energy, 46 (2021) 5045-5052.

[20] M. Wang, J. Bai, K. Shao, W. Tang, X. Zhao, D. Lin, S. Huang, C. Chen*, Z. Ding*, J. Ye*, Poly(vinyl alcohol) Hydrogels: The Old and New Functional Materials, International Journal of Polymer Science, 2021(2021)2225426

[21] Z Chu, G. Chen, X. Zhao, D. Lin*, C. Chen*, Research progress of photonic crystals in photocatalysis, Journal of Materials Engineering 49(2021)43-53

[22] Q. Wang, K. Li, H. Yang, D. Lin*,W.Y. Shih, W.H. Shih*，Cesium lead iodide electrospun fibrous membranes for white lightemittingdiodes，Nanotechnology, 33 (2022)385603.

[23] Y. Chen, M. Zhou, Y. Huang, Y.Ma*, L. Yan, X. Zhou, X. Ma, X. Zhao, C. Chen, J. Bai, D. Lin*, Enhanced Ethanol Oxidation Over Pd Nanoparticles Supported Porous Graphene-doped MXene Using Polystyrene Particles as Sacrificial Templates，Rare Metals, 41(2022) 3170–3179.

[24]Y. Chen, Y. Ma, Y. Zhou, Y. Huang, S. Li, Y. Chen, R. Wang, J. Tang, P. Wu, X. Zhao, C. Chen^*, Z. Zhu, S. Chen, K. Cheng, D. Lin*, Enhanced Methanol Oxidation on PtNi Nanoparticles Supported on Silane-modified Reduced Graphene Oxide, International Journal of Hydrogen Energy, 47(2022) 6638-6649.

[25] T.Wu, Y. Zhu, L. Song, Y. Chen, Y. Huang ,J. Tang, X. Ma, H.Wang, J. Zhang, D. Lin *, G. Chen*, Three-dimensional gold nanowires with high specific surface area for simultaneous detection of heavy metal ions,Analytical Methods, 14(2022) 859-868

[26] Z. Chu, C. Xue, K. Shao,L. Xiang, X. Zhao, C. Chen^*, J. Pan^*, D. Lin^*.Photonic Crystal Embedded Molecularly Imprinted Contact Lenses for Controlled Drug Releasing, ACS Applied Bio Materials, 5(2022)243–251. (封面文章)

[27] L. Ma, T. Chen, Q. Li, M. Mai, X. Ye, J. Mai, C. Liu, J. Zhang, D. Lin, X. Ma, Yb³⁺, Er³⁺ co-doped NaGdF₄/BiVO₄ embedded Cu₂O photocathodes for photoelectrochemical water reduction with near infrared light, Applied Surface Science, 585 (2022)152650.

[28] Y. Li, T. Wu, L. Song, Y. Zhu, Y. Chen, Y. Huang, J. Tang, K. Cheng, D. Lin^*, G. Chen^*, Magnetically aligned graphite flakes electrodes for excellent sensitive detection of hydroquinone and catechol. Chemical Papers 76(2022)6323–6333.

[29]P. Wu, Y. Huang, X. Zhao*, D. Lin, L. Xie, Z. Li, Z. Zhu, H. Zhao, M.Lan, MnFe₂O₄/MoS₂ Nanocomposite as Oxidase-like for Electrochemical Simultaneous Detection of Ascorbic acid, Dopamine and Uric Acid, Microchemical Journal, 181(2022)107780.

[30] X. Wang#, Z. Chu#, Y. Huang, G. Chen，X. Zhao, Z. Zhu, C. Chen*, D. Lin*. Copper Ion Imprinted Hydrogel Photonic Crystal Sensor Film, ACS Applied Polymer Matererials 4(2022)4568–4575.

[31] S. Chen,D. Lin, G. Gao, J. Guan*, C. Belver, J. Bedia*, Sources, Aging, and Management of Coastal Plastics in Shanghai,Water Air and Soil Pollution233(2022)437.

[32]X. Ning, J. Huang, A. Yimuhan, N. Yuan, C. Chen*, D. Lin*,Research Advances in Mechanical Properties and Applications of Dual Network Hydrogels, International Journal of Molecular Sciences23(2022) 15757.

[33]G. Gao, Z. Li, S. Chen*,C. Belver,D. Lin, Z. Li, J. Guan,Y. Guo, J. Bedia*,Synthesis of zero-valent iron supported with graphite and plastic based carbon from recycling spent lithium ion batteries and its reaction mechanism with 4-chlorophenol in water, Journal of Environmental Management 325(2023)116490.

[34]Y. Huang, P. Wu, Y. Ma,Y. Chen, J. Tang, X. Zhou, X. Ma, W. Li*, X. Zhao, C. Chen,W. Shih, D. Lin*, Single atom iron carbons supported Pd-Ni-P nanoalloy as a multifunctional electrocatalyst for alcohol oxidation, International Journal of Hydrogen Energy, 48(2023), 13972-13986.

[35]Y. Ye, B.Liao, M. Li, M. Mai, L. Zhang, L. Ma, D. Lin, J. Zhao, D. Chen , X. Ma, Boosting photoelectrochemical chlorine and hydrogen production with oxygen vacancy rich TiO2 photoanodes, Journal of Alloys and Compounds, 947(2023)169480.

[36]P. Wu, X. Zhao*,Y. Ding,Y. Huang, D. Lin, L. Xie, Z. Li, Z. Zhu, H. Zhao, M.Lan, Self-assembled Multilayer Nb2C MXene/MnFe2O4 Electrochemical Sensor with Schottky Junctions for the Detection of Acetaminophen and Dopamine, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 667 (2023) 131377.

[37] Y. Chen, J. Sun, Y. Huang, D. Lin, D. Ma*, J. Wang*, Solvothermally grown WO3·H2O film and annealed WO3 film for wide-spectrum tunable electrochromic applications, Ceramics International, 49(2023) 29534-29541.

[38] M. Mai, B. Liao, Y. Liao, D. Lin, X. Ma*, Electrochemical deposition of GaTe thin films for photoelectrochemical applications, Journal of Applied Electrochemistry, (2023).

[39] L. Song, Y. Zhu, J. Wang, T. Wu, S. Zhou, X. Zhang, J. Tang, J. Wang, D. Lin*, G. Chen*, Inorganic phosphate regulated high luminescence NaYF₄:Yb³⁺, Er³⁺ as an iron ion fluorescent nanoprobe, Spectrochim Acta A Mol Biomol Spectrosc, 300 (2023) 122903.

[40] W. Zhan, Z. Cheng, R.-H. Zhang, L.-Y. Yan, G.-X. Tian, D.-H. Lin, S.-Z. Xiao, X.-W. Zhou, In situ construction of chain-like PdAg/AgCl heterojunction electrocatalyst for ethylene glycol oxidation, Journal of Electroanalytical Chemistry, 942 (2023) 117547.

[41] Y. Chen, J. Yang, Y. Ma, J. Tang, X. Zhao, C. Chen, L. Wang, B. Zhang*, X. Zhou, S. Sun*, D. Lin*, N-doped carbon-stabilized PdNiCu nanoparticles derived from PdNi@Cu-ZIF-8 as highly active and durable electrocatalyst for boosting ethanol oxidation, Applied Surface Science, 637 (2023)157944.

编著及参编主要教材专著

1. Graphene Oxide- Applications and Opportunities. IntechOpen, 2018.

2. Modulating Gene Expression-Abridging the RNAi and CRISPR-Cas9 Technologies, IntechOpen, 2018.

学术及科研成果

1.“基于阻抗的微液流代谢物即时诊断芯片的研发及产业化项目”在“2016Innobay 宁波杭州湾新区国际创新创业大赛”中获得一等奖，2016年；

2. 指导研究生王琪获第七届上海市大学生新材料创新创意大赛三等奖，2020年9月；

3. 指导研究生张恩宁（与上海材料研究所联培）获“华为杯”第十八届中国研究生数学建模竞赛二等奖，2021年12月。

学术兼职

1. 《Frontiers in Materials》评审编辑、《Advanced Powder Materials》、《稀有金属》、《材料工程》、《航空材料学报》等期刊青年编委

2. 美国科学促进会会员、中国化学会会员、中国电化学会会员、中国金属学会高级会员

荣誉奖励

1. 2019年上海市东方学者特聘教授

2. 2023年全国归侨侨眷先进个人

3. 2022年厦门市“双百计划”领军型创业人才

4.“基于阻抗的微液流代谢物即时诊断芯片的研发及产业化项目”在“2016Innobay 宁波杭州湾新区国际创新创业大赛”中获得一等奖

授权专利

1.林东海，黄宇飞，一种多功能食品快速检测仪，CN 211206264U，授权时间：2019.12

2.林东海，黄宇飞，一种肉类水分快速检测装置，CN 211206459U,  授权时间：2019.12

3.林东海, 陈旭林, 周华希, 黄文池, 陈晓凤,李林艳, 多功能痕量物质即时检测装备,CN217820256U 授权时间：2022.11

4.林东海, 陈旭林, 周华希, 黄文池, 陈晓凤,李林艳,痕量物质即时检测一体机, CN307592149S授权时间：2022.10.14

5.林东海, 陈旭林, 周华希, 黄文池, 陈晓凤,李林艳,消防现场多功能检测仪,CN217404126U,授权时间：2022.9

其他

招收硕士生3~5名，中科院上海硅酸盐研究所联培硕士1~2名，上海材料研究所联培硕士1~2