崔国峰

副教授

电子邮件

[email protected]

基本情况

姓名：崔国峰

性别：男

出生年月：1979-04

籍贯：黑龙江省北安市

职位：工学博士，现任线上赌博app-赌博软件下载博士生导师、副教授

联系方式

邮箱：[email protected]

通讯地址：广州市番禺区大学城外环东路132号线上赌博app-赌博软件下载 , 邮编510006

办公室地址：中山大学东校园化学与材料综合楼A662室

个人网站： www.mecart.cn, www.leadao.cn

教育经历

1997.09-2001.07 齐齐哈尔工学院，化学与化学工程系，精细化工专业，工学学士，导师：郭祥峰教授。

2001.09-2003.03 哈尔滨工业大学，理学院，电化学专业，工学硕士，导师：李宁教授。

2003.03-2006.07 哈尔滨工业大学，理学院，电化学专业，工学博士，导师：李宁教授。

工作经历

2006.07-2008.12 中山大学，化学与化学工程学院，讲师

2009.01-2011.01 中山大学，研究生院副处长

2009.01-至今中山大学，线上赌博app 副教授

社会兼职

2011.4-至今广东省电子电镀专家委员会，秘书长

2011.4-至今中国电子学会，高级会员

2011.4 -至今广东省腐蚀与表面工程学会，副会长

2019.11-至今哈尔滨工业大学（威海）广州校友会，秘书长

2020.10-至今中关村材料试验技术联盟，CSTM委员

2021.4-至今华南理工大学，专业学位硕士研究生校外指导教师

2022.1-至今中山大学科技园，创业导师

科研方向

研究方向为人工智能化学传感器系统，针对人体嗅觉和味觉传感系统电子仿生研究。主要成果包括电化学微电极芯片、传感器模组和相关检测仪器，研究领域为电化学传感器（Electrochemical Sensor），量子电化学（Quantum Electrochemistry），电化学检测仪器（Electrochemical Measuring Instrument）和电子封装电化学（Electronic Package Electrochemistry）。涉及领域为生物医学工程中的化学传感在医学IVD分子检测中应用。

研究期间发表SCI论文56篇，授权专利6件，主持20余项国家级和省部市级重大专项项目，参与了863计划和国家重大专项2项。行业内获得台湾线路板金奖3次，并于2014年获得台湾线路板协会和国际IPC协会颁发专业组特别奖。

针对人工智能化学传感器组建了电子封装电化学实验室（EPEC Lab.）和广州钰芯智能科技研究院（MECART）。目前与美国纽约州立大学布法罗分校的武刚教授建立长期紧密合作关系，并与华南理工大学联合培养硕士研究生。与中山大学科技园合作承担创新创业指导工作。

课题组长期招收电化学、化学传感、仪器开发等相关专业方向的研究生和博士后。

同时也欢迎有志于大学生挑战杯和创业大赛项目意愿的化学，材料，电子工程专业的本科生加入。

论著一览

【I.电化学传感研究】

[1] Hui Li, JieZhao, Shifan Zhao, GuofengCui*. Simultaneous determination of trace Pb(II), Cd(II), and Zn(II) using an integrated three-electrode modified with bismuth film. Microchemical Journal, 2021,168: 109390.

[2] Yu Tian, JieZhao, DongxueHan, Shifan Zhao, Yuanwei Zhang, GuofengCui*. Study of a novel fabrication method of 3D Ag-based nanoporous structures for electrochemical detection. Journal of Electroanalytical Chemistry, 2021,882: 114990.

[3] Chengduan Yang, Cheng Yang, Xiangling Li, Aihua Zhang, Gen He, Qianni Wu, Xingxing Liu, Shuang Huang, Xinshuo Huang, GuofengCui*, Ning Hu, Xi Xie, Tian Hang. Liquid-like Polymer Coating as a Promising Candidate for Reducing Electrode Contamination and Noise in Complex Biofluids. ACS Applied Materials and Interfaces, 2021,13(3): 4450-4462.

[4] FanggenWu, JieZhao, DongxueHan, ShifanZhao, RuiZhu, GuofengCui*. A three-electrode integrated electrochemical platform based on nanoporous gold for the simultaneous determination of hydroquinone and catechol with high selectivity. Analyst, 2021,146(1): 232-243.

[5] ChaoliTan, JieZhao, PengSun, WeiZheng, GuofengCui*. Gold nanoparticle decorated polypyrrole/graphene oxide nanosheets as a modified electrode for simultaneous determination of ascorbic acid, dopamine and uric acid. New Journal of Chemistry, 2020, 44(12): 4916-4926.

[6] GangLi, PengSun, FanggenWu, JieZhao, DongxueHan, GuofengCui*. Significant enhancement in the electrochemical determination of 4-aminophenol from nanoporous gold by decorating with a Pd@CeO2 composite film. New Journal of Chemistry, 2020, 44(7): 3087-3096.

[7] MinJiang, PengSun, JieZhao, Lihua Huo, GuofengCui*. A flexible portable glucose sensor based on hierarchical arrays of Au coated Cu(OH)₂ Nanograss. Sensors, 2019, 19(22), 5055.

[8] Huang Chen, Guokang Fan, Jie Zhao, Meijia Qiu, Peng Sun, Yifeng Fu, Dongxue Han, Guofeng Cui*. A portable micro glucose sensor based on copper-based nanocomposite structure. New Journal of Chemistry, 2019, 43(20), 7806-7813.

[9] Guokang Fan, Peng Sun, Jie Zhao, Dongxue Han, Li Niu, Guofeng Cui*. Alleviating concentration polarization: a micro three-electrode interdigitated glucose sensor based on nanoporous gold from a mild process. RSC Advances, 2019, 9(19), 10465-10472.

[10] Huang Chen, Peng Sun, Meijia Qiu, Min Jiang, Jie Zhao, Dongxue Han, Li Niu, Guofeng Cui*. Co-P decorated nanoporous copper framework for high performance flexible non-enzymatic glucose sensors. Journal of Electroanalytical Chemistry, 2019, 841, 119-128.

[11] Han Yang, Jie Zhao, Meijia Qiu, Peng Sun, Dongxue Han, Li Niu, Guofeng Cui*. Hierarchical bi-continuous Pt decorated nanoporous Au-Sn alloy on carbon fiber paper for ascorbic acid, dopamine and uric acid simultaneous sensing. Biosensors and Bioelectronics, 2019, 124-125, 191-198.

[12] Xilai Zou, Yongyin He, Peng Sun, Jie Zhao, Guofeng Cui*. A novel dealloying strategy for fabricating nanoporous silver as an electrocatalyst for hydrogen peroxide detection. Applied Surface Science, 2018, 447: 542-547.

[13] Jie Zhao, Xilai Zou, Peng Sun, Guofeng Cui*. Three-Dimensional Bi-Continuous Nanoporous Gold/Nickel Foam Supported MnO₂ for High Performance Supercapacitors. Scientific Reports, 2017, 7: 17857.

[14] Zhihao Li , Yanghua He , Xi Ke**, Lin Gan, Jie Zhao, Guofeng Cui*, Gang Wu. Three-dimensional nanoporous Au films as high-efficiency enzyme-free electrochemical sensors. Electrochimica Acta, 2015,170(10): 337-342。

[15] Lin Gan, Meijia Yang, Xi Ke, Guofeng Cui*, Xudong Chen**, Shiva Gupta, William Kellogg, Drew Higgins, Gang Wu. Mesoporous Ag nanocubes via selectively oxidative etching at room temperature for surface-enhanced raman spectroscopy. Nano Research,2015,8(7): 2351-2362.

[16] Zhihao Li, Yanghua He, Xi Ke**, Lin Gan, Jie Zhao, Guofeng Cui*, Gang Wu***. Three-dimensional nanoporous goldecobalt oxide electrode for high-performance electroreduction of hydrogen peroxide in alkaline medium. Journal of Power Sources, 2015, 294: 136-140.

[17] Yantong Xu, Xi Ke, Changchun Yu, Shaofang Liu, Jie Zhao, Guofeng Cui*, Drew Higgins, Zhongwei Chen, Qing Li, Gang Wu. A strategy for fabricating nanoporous gold films through chemical dealloying of electrochemically deposited Au-Sn alloys. Nanotechnology, 2014, 25: 445602.

[18] Xi Ke, Yantong Xu, Changchun Yu, Jie Zhao,Guofeng Cui*,Drew Higgins, Qing Li,Gang Wu. Nanoporous gold on three-dimensional nickel foam: An efficient hybrid electrode for hydrogen peroxide electroreduction in acid media. Journal of Power Sources, 2014, 269: 461-465.

[19] Xi Ke, Yantong Xu, Changchun Yu, Jie Zhao, Guofeng Cui*, Drew Higgins, Zhongwei Chen, Qing Li, Hui Xu, Gang Wu. Pd-decorated three-dimensional nanoporous Au/Ni foam composite electrodes for H₂O₂reduction. Journal of Materials Chemistry A, 2014, 2: 16474-16479.

[20] Wei Li, Shilei Xie, Mingyang Li, Xingwang Ouyang, Guofeng Cui*, Xihong Lu*, Yexiang Tong*. CdS/CeO_x heterostructured nanowires for photocatalytic hydrogen production. Journal of Materials Chemistry A, 2013, 1: 4190-4193.

[21] Xi Ke, Lulu Deng, Pei Kang Shen*, Guofeng Cui*. Electrochemical Quartz Crystal Microbalance (EQCM) Characterization of Electrodeposition and Catalytic Activity of Pd-based Electrocatalysts for Ethanol Oxidation. Chemical Research in Chinese Universities, 2010, 26: 443-448.

【II.量子电化学研究】

[22] Meijia Qiu, Liang Ma, Peng Sun, Zilong Wang, Guofeng Cui*, Wenjie Mai. Manipulating Interfacial Stability via Absorption-Competition Mechanism for Long-Lifespan Zn Anode. Nano-Micro Letters, 2021,14(1): 31.

[23] PengSun, MeijiaQiu, JunlongHuang, JieZhao, LuyiChen, YifengFu, GuofengCui*, YexiangTong. Scalable three-dimensional Ni3P-based composite networks for flexible asymmertric supercapacitors. Chemical Engineering Journal, 2020, 380, 122621.

[24] Meijia Qiu, Peng Sun, Guofeng Cui*, Yexiang Tong, Wenjie Mai. A Flexible Microsupercapacitor with Integral Photocatalytic Fuel Cell for Self-Charging. ACS Nano. 2019,13(7), 8246-8255.

[25] Tiantian Fan, Peng Sun, Jie Zhao, Zhiming Cui, Guofeng Cui*. Facile Synthesis of Three-Dimensional Ordered Porous Amorphous Ni-P for High-Performance Asymmetric Supercapacitors. Journal of The Electrochemical Society, 2019, 166(2), D37-D43.

[26] Peng Sun, Meijia Qiu, Mingyang Li, Wenjie Mai, Guofeng Cui*, Yexiang Tong. Stretchable Ni@NiCoP textile for wearable energy storage clothes. Nano Energy.2019,55:506-515.

[27] Guofeng Cui*, Shaofang Liu, Kaiming Wang, Qing Li, Gang Wu. Discovering p-doped mechanism in non-magnetic Ni-P films for HDD substrate:a combined experimentalandtheoretical study. RSCadvances,2014, 4: 14663-14672.

[28] Yulei Liu, Min Xiao*, Shuanjin Wang, Liang Xia, Dongmei Hang, Guofeng Cui*, Yuezhong Meng*. Mechanism studies of terpolymerization of phthalic anhydride, propylene epoxide, and carbon dioxide catalyzed by ZnGA. RSC advances, 2014, 4: 9503-9508.

[29] Guofeng Cui*, Shaofang Liu, Jie Zhao, Edward F. Holby, Qing Li, Gang Wu. AuSn₂₀Eutectic Electrodeposition through Alternative Complexing of Pyrophosphoric Acid: Insights from Electrochemical and DFT Methods, Journal of Physical Chemistry C, 2013, 117: 21228–21233.

[30] Guofeng Cui*, Jie Zhao, Shaofang Liu, Gang Wu. Structural and Corrosion Properties of NiP_x Metallic Glasses: Insights from EIS and DFT, Journal of Physical Chemistry C, 2011, 115: 21169–21176.

[31] Guofeng Cui*, Pei Kang Shen*, Hui Meng, Jie Zhao, Gang Wu. Tungsten carbide as supports for Pt electrocatalysts with improved CO tolerance in methanol oxidation.Journal of Power Sources. 2011, 196: 6125-6130.

[32] Gang Wu*, Mark Nelson, Shuguo Ma, Hui Meng, Guofeng Cui*, Pei Kang Shen. Synthesis of nitrogen-doped onion-like carbon and its use in carbon-based CoFe binary non-precious-metal catalysts for oxygen-reduction. Carbon, 2011, 49: 3972-3982.

[33] Jie Zhao*, Guofeng Cui*. Study on Adsorption and Complexation Behavior of Thiourea on Copper Surface.International Journal of Electrochemical Science, 2011, 6: 4048-4058.

[34] Peikang Shen, Zaoxue Yan, Hui Meng*, Mingmei Wu*, Guofeng Cui*, Ruihong Wang, Lei Wang, Keying Si, Honggang Fu*. Synthesis of Pd on porous hollow carbon spheres as an electrocatalyst for alcohol electrooxidation, RSC Advances, 2011, 1: 191–198.

[35] Xiang Fang, Liangqin Wang, PeiKang Shen*, Guofeng Cui*, Claudio Bianchini*. An in situ Fourier transform infrared spectroelectrochemical study on ethanol electrooxidation on Pd in alkaline solution. Journal of Power Sources, 2010, 195: 1375-1378.

[36] Guofeng Cui*, Shuqin Song, Peikang Shen*. Andrzej Kowal, Claudio Bianchini. First-Principles Considerations on Catalytic Activity of Pd toward Ethanol Oxidation. Journal of Physical Chemistry C, 2009, 113: 15639-15642.

[37] Xi Ke, Guofeng Cui*, Peikang Shen*. Stability of Pd-Fe Alloy Catalysts. Acta Physico-Chimica Sinica, 2009, 25: 213-217.

[38] Gang Wu*, Guofeng Cui*, Deyu Li, Peikang Shen, Ning Li. Carbon-supported Co_1.67Te₂ nanoparticles as electrocatalysts for oxygen reduction reaction in alkaline electrolyte. Journal of Materials Chemistry. 2009, 19: 6581-6589.

[39] Xianghua Zhang, Hong Liu*, Wenzhao Li, Guofeng Cui*, Hengyong Xu, Keli Han, Qingping Long. Visible-light photocatalytic degradation of aromatic contaminants with simultaneous H₂ generation: Comparison of 2,4-dichlorophenoxyacetic acid and 4-chlorophenol. Catalysis Letters. 2008, 125: 371-375.

[40] Guofeng Cui*, Xi Ke, Hong Liu, Jianwei Zhao, Shuqin Song, Peikang Shen. First-principles considerations on spontaneous replacement of copper by tin in the presence of thiourea. JournalofPhysical Chemistry C, 2008, 112: 13546-13553.

[41] Guofeng Cui*, Hong Liu, Gang Wu, Jianwei Zhao, Shuqin Song, Peikang Shen*. Electrochemical impedance spectroscopy and first-principle investigations on the oxidation mechanism of hypophosphite anion in the electroless deposition system of nickel. Journalof Physical Chemistry C. 2008, 112: 4601-4607.

[42] Fengping Hu, Guofeng Cui*, Zidong Wei, Peikang Shen*. Improved kinetics of ethanol oxidation on Pd catalysts supported on tungsten carbides/carbon nanotubes. Electrochemistry Communications. 2008, 10: 1303-1306.

[43] Gang Wu*, Raja Swaidan, Guofeng Cui*. Electrooxidations of ethanol, acetaldehyde and acetic acid using PtRuSn/C catalysts prepared by modified alcohol-reduction process. Journalof Power Sources. 2007, 172: 180-188.

[44] Re Zhao, Ning Li*, Shan Gao and Guofeng Cui*. The irreversible characteristic analysis of thiourea on copper electrodes in aqueous 0.5 mol/L sulphuric acid. Electrochemistry Communications. 2007, 9: 2261-2265.

[45] Jie Zhao, Ning Li, Guofeng Cui*, Jianwei Zhao. Study on immersion tin process by electrochemical methods and molecular orbital theory. Journal of The Electrochemical Society, 2006, 153: C848-C853.

[46] Guofeng Cui*, Ning Li, Jianwei Zhao, Mingbo Zhang. Ab initio MO Study on the Reaction Mechanism of Reduction of Hypophosphorous Acid. Journal of The Electrochemical Society, 2005, 152: C861-864.

【III．电子封装电化学研究】

[47] YifengFu, GuofengCui*, KjellJeppson. Thermal characterization of low-dimensional materials by resistance thermometers. Materials, 2019, 12(11):1740.

[48] Ning Xiao, Deyu Li, Guofeng Cui*, Ning Li*, Qing Li, Gang Wu. Adsorption behavior of triblock copolymer suppressors duringthecopper electrodeposition. Electrochimica Acta, 2014,116: 284-291.

[49] Ning Xiao, Ning Li^*, Guofeng Cui*, Dong Tian, Shiyou Yu, Qing Li, Gang Wu^*. Triblock Copolymers as Suppressors for Microvia Filling via Copper Electroplating. Journal of The Electrochemical Society, 2013, 160: D188-D195.

[50] Ning Xiao, Deyu Li, Guofeng Cui*, Ning Li*, Dong Tian, Qing Li, Gang Wu. An effective triblock copolymer as a suppressor for microvia filling via copper electrodeposition. Electrochimica Acta, 2013, 109: 226-232.

[51] Teng Zhai, Xihong Lu, Guofeng Cui*, Gang Wu,Junxiong Qu and Yexiang Tong. Efficient electroless nickel plating from highly active Ni-B nanoparticles for electric circuit pattern on Al₂O₃ ceramic. Journal of Materials Chemistry C,2013, 1: 5149-5152.

[52] Jie Zhao*, Guofeng Cui*, Hong Liu. Investigation into Rejuvenation of Spent Chromium Plating Solutions by Bipolar Membrane Electrodialysis, Journal of The Electrochemical Society, 2011, 158: D561-D566.

[53] Junxi Liu, Hong Liu*, Chuan Wang, Xiangzhong Li, Yexiang Tong*, Xiaoli Xuan,Guofeng Cui*. Synthesis, characterization and re-activation of a Fe⁰/Ti system for the reduction of aqueous Cr (VI). Journalof Hazardous Materials.2008, 151: 761-769.

[54] Guofeng Cui*, Jinghe Wang, Ning Li, Xingqiao Huang. A Single Precursor Pit for Pitting Corrosion on Defect of Tinplate Alloy Layer Visualized by Atomic Force Microscopy. Materials Chemistry and Physics, 2006, 97: 488-493.

[55] Guofeng Cui*, Ning Li, Deyu Li, Jian Zheng, Qinglong Wu. The Physical and Electrochemical Properties of Electroless Deposited Black Nickel–Phosphorus Alloys. Surface and Coatings Technology, 2006, 200: 6808-6814.

[56] Guofeng Cui*, Ning Li, Deyu Li, Minglei Chi. Study of Optimized Complexing Agent for Low-Phosphorus Electroless Nickel Plating Bath. Journal of The Electrochemical Society, 2005, 152: C669-C674.

专利成果

一种高导热基板及其制备方法，国家发明专利，授权号：ZL201310230930.1。
一种负载到基材上的去合金法获得纳米多孔银的方法，国家发明专利，授权号：ZL201510531888.6。
一种金锡共晶焊料(AuSn20)电镀液及制备方法，国家发明专利，授权号：ZL201210116227.3。
一种纳米氧化锌微球及其制备方法，国家发明专利，授权号：ZL201911316715.7。
载有纳米材料包裹保胎药物的微针给药系统及制备方法，国家发明专利，授权号：ZL201810366112.7。
一种含有还原氧化石墨烯和聚合物的复合膜及其制备和应用，国家发明专利，授权号：ZL201910206401.5。
一种碳材料微珠/聚合物复合膜及其制备和应用，国家发明专利，授权号：ZL201910206389.8。

科研项目

中山大学校基金项目：“绿色化学镀镍及废水处理一体化新工艺开发及工程”，项目主持人, No: 2006-31000-1131214,年度：2007, 01~2008, 12。
中山大学校长后备课题项目：“绿色化学镀镍及废水处理一体化新工艺的研究”，项目主持人, No: 2006-31000-1132-267,年度：2007, 01~2008, 12。
国家自然科学基金项目：“化学沉积镍中非金属可控析出的催化剂设计及机理研究”，项目主持人, No: 50801070,年度：2008, 12~2011, 12。
广东省学科建设专项资金项目育苗工程项目：“量子电化学研究化学沉积镍中磷的催化析出机制”，项目主持人， No: 31000-3211602，年度：2008, 12~2011, 12。
2009年广东省省部产学研“节能减排与可再生能源”重大科技专项资金支持项目，LED照明关键技术开发集成：“基于回路热管散热技术的大功率白光LED照明光源模组的研究和产业化”，项目负责人，No:2009A080301012, 年度：2010,01~2012,01。
2009年广东省省部产学研合作重大专项：“ 五金刀剪材料表面处理技术及高品质产品的研发”，项目负责人， No:2009A090100045,年度： 2009,09~2011,08。
国家863科技计划：“超低Pt多孔有序立体化膜电极组件的设计与研究”，主要参与人，No: 2009AA05Z110，年度：2009,06~2010,05。
广东省低碳化学与过程节能重点实验室主任基金：“一体化无碳低热阻LED金属基板的设计及应用”，项目主持人，年度：2010, 10~2012, 10。
高校基本科研业务费中山大学青年教师培育项目：“全印制电子用催化型纳米颗粒的结构设计及控制方法”，项目主持人，No：11lgpy08，年度：2011,01~2013,12。
2012年广州市珠江科技新星专项立项项目：“超高导热金属核芯基板材料的设计及应用”，项目主持人，No:31000-4205728，年度：2012,05~2015,05。
2011年惠州大亚湾区科技计划项目：“高性能LED导电银胶研发与产业化”，项目负责人，No:31000-4207387，年度：2011,10~2014,06。
2011年先进技术研究院“面向产业发展的关键技术研究与应用”项目：“军民两用超高导热金属-陶瓷复合基板的设计及应用”，项目负责人，年度：2012,01~2015,01。
2012年惠州大亚湾区科技计划项目：“超高导热金属-陶瓷复合基板的的设计及应用”，项目负责人，No:20120212，年度：2012,10~2015,06。
2012年先进技术研究院“面向产业发展的关键技术研究与应用”项目：“高导热AuSn20共晶电沉积微加工在光电子封装中的应用及推广”，项目负责人，年度：2012,01~2015,01。
2012年国家自然科学基金项目：“AuSn20共晶电沉积中锡可控析出的配体作用机制及设计原则”，项目主持人, No: 51271205,年度：2012, 12~2015, 12。
2013年广州市科技计划重大项目 “大功率LED光源与驱动电源中引线框架和基板一体化高导热系统解决方案及产业化”，项目负责人，No:2013Y2-00102，年度：2013,03~2015,12。
2013年广东省优秀青年教师项目，项目负责人，No：Yq2013006，年度：2014,01~2017,01。
2013年惠州市科技计划项目“大功率LED封装用高导热低温烧结银浆研发与产业化”，项目负责人，No:2012B050013012，年度：2012,10~2014,06。
2017年清远市科技计划项目“新能源汽车电子用高导热线路板关键技术开发与产业化研究”，项目参与人，No:2018C005，年度：2017,07~2019,07。
2018年中山大学科技成果转化类项目“POCT生物医用血气检测传感芯片”，项目负责人，年度：2019,01~2019,12。
2021年广州市科技计划项目“殡葬行业火化设备主要污染物便携式在线检测装置的研发与应用”，项目参与人，No:202103000003，年度：2021,04~2023,03。

科研活动

分子轨道理论研究次亚磷酸的还原机理（口头报告）、电化学交流阻抗研究化学镀镍液的pH值对沉积的影响（口头报告）、化学镀镍过程中磷析出机理的研究（口头报告）、化学镀镍磷合金的物理和电化学特性（墙报）、采用STM研究光亮剂对化学镀镍的影响（墙报）.第十三次全国电化学会议. 广州，2005.12。
电化学阻抗和密度泛函理论联合研究次磷酸根阴离子在化学镀镍中的氧化机理（口头报告）. 第十四次全国电化学会议. 扬州，2007.11。
化学镀镍磷合金的新机理.部分I.界面催化反应（口头报告）. 第十五次全国电化学会议. 长春，2009.12。
协助广州市科协举办.“2009年穗港澳台科技与产业发展论坛”，广州，2009.11。
通过EIS和DFT研究NiPx金属玻璃的耐腐蚀行为（邀请报告）. 第十六次全国电化学会议. 重庆，2011.11。
通过EIS和DFT研究单晶金电沉积机理. 第十七次全国电化学会议. 重庆，2013.10。
通过EIS和DFT研究AuSn20共晶电沉积机理. 第十八次全国电化学会议. 重庆，2015.08。
2018年第一届智能汽车传感器件与表面处理研讨会，广州钰芯智能科技研究院，广州，2018.12。

获奖情况

台湾印制线路板协会-2010年度台湾电路板产业学院优秀论文-金奖,江苏苏州,评选日期：2010.05。
台湾印制线路板协会-2013年度台湾电路板产业学院优秀论文-专家组特别奖,台湾,评选日期：2014.4。
广州腐蚀学会-2015年度优秀论文奖,一等奖,广州,评选日期：2015.12。