学院简介

    深圳大学高等研究院是深圳大学新成立的一个包含本科与研究生培养、侧重跨学科教学与研究的校内综合办学单位。作为深圳大学内部探索全面改革创新的学术特区,高等研究院与香港和海外著名高校合作,借鉴国外研究型大学通行的管理模式,引进具有一流视野的资深教授和发展潜力的青年教师,营造与国际接轨的学术氛围和培养环境,开展卓越的教学、研究和管理工作。 ······

本科生课程

李秀婷

博士,研究员

联系方式:xiuting.li@szu.edu.cn

通讯地址:深圳市南山区南海大道3688号深圳大学办公楼362室, 518060

 

教育背景:

2018,英国牛津大学,物理与理论化学,博士

2014,四川大学,分析化学,硕士

2011,四川大学,化学,学士

 

工作经历:

2019.01至今,深圳大学高等研究院,研究员

2017.10至2018.10,英国牛津大学,博士后

 

研究兴趣:

纳米颗粒在溶液中进行布朗运动(Brownian Motion)并随机地碰撞到施加了一定电压的微电极表面,从而可以被直接电解或者催化溶液中的电活性物质发生电子转移。该方法被称为纳米碰撞法。它是一种专门用于研究单纳米颗粒电化学行为的新兴电化学技术。我的主要研究方向是基于单纳米颗粒电化学技术进行以下几个方面的探索:

(1)基础研究:研究能源转化与储存中相关纳米材料的电化学机理、动力学行为等信息。

(2)分析检测:发展单纳米颗粒电化学技术在分析检测中的应用,如生物医药、环境检测等方面。

(3)仪器研发:相关低噪音高性能电化学仪器和个性化部件的研制。

 

学术兼职:

英国皇家化学学会(RSC)会员,国际电化学协会(ISE)会员,电化学协会(ISE)会员; Electrochemical Communications 等杂志审稿人

 

学术报告:

2018.04 Royal Society of Chemistry-NPL Symposium: Nanoparticle Concentration-Critical Needs and State-of-the-art Measurement, 伦敦,英国

报告题目:Electrochemical Measurement of Nanoparticle Size, Concentration, Agglomeration State and Porosity

2016.08 The 67th International Societry of Electrochemistry (ISE) Annual Meeting,海牙,荷兰

报告题目:Single Carbon Nanotube Voltammetry: Contact Modulation of the Mediated Current.

 

所获奖励:

2018.04 英国皇家化学学会-英国国家物理实验室论坛(Nanoparticle Concentration-Critical Needs and State-of-the-art Measurement)海报奖

2016.08 第67届国际电化学年会分析化学部 Travel Grant

2016-2018 牛津大学Hertford学院Carreras Senior Scholar

2014-2017 国家留学基金委公派留学博士全额奖学金

2011-2013 四川大学研究生一等奖学金

2011 四川大学本科毕业论文一等奖                

2011 四川省优秀大学毕业生

2008、2009、2010 国家奖学金

2008、2009、2010 四川大学综合一等奖

2008、2009、2010 四川大学优秀大学生  

 

学术论文:

1. Li, X.; Batchelor-McAuley, C; Novev, J. K.; Compton, R. G.*, A Thermostated Cell for Electrochemistry: Minimising Natural Convection and Investigating the Role of Evaporation and Radiation. Phys. Chem. Chem. Phys. 2018, 20, 11794-11804. (IF = 4.1)

2.Krittayavathananon, A.+; Li, X.+; Batchelor-McAuley, C.; Sawangphruk, M.; Compton, R. G.*, Electrolyte-Induced Electrical Disconnection between Single Graphene Nanoplatelets and an Electrode. J. Phys. Chem. Lett. 2018, 9, 5822-5826. (IF = 9.3)

3.Li, X.; Batchelor-McAuley, C.; Laborda, E.; Compton, R. G.*, Aqueous Voltammetry in the Near Absence of Electrolyte. Chem. Eur. J. 2017, 23, 1-6. (Hot Paper and Highlighted in ChemisryView)(IF = 5.3)

4. Li, X.; Batchelor-McAuley, C.; Shao, L.; Sokolov, S. V.; Young, N. P.; Compton, R. G.*, Quantifying Single-Carbon Nanotube–Electrode Contact via the Nanoimpact Method. J. Phys. Chem. Lett. 2017, 8, 507-511. (IF = 9.3)

5. Li, X.; Batchelor-McAuley, C.; Whitby, S. A. I.; Tschulik, K.; Shao, L.; Compton, R. G.*, Single Nanoparticle Voltammetry: Contact Modulation of the Mediated Current. Angew. Chem. Int. Ed. 2016, 55, 4296-4299. (Hot Paper) (IF = 12.0)

6. Li, X.; Hodson, H.; Batchelor-McAuley, C.; Shao, L.; Compton, R. G.*, Improving Formate and Methanol Fuels: The Catalytic Activity of Single Pd Coated Carbon Nanotubes. ACS Catal. 2016, 6, 7118-7124. (IF = 10.6)

7.Li, X.; Lin, C.; Batchelor-McAuley, C.; Laborda, E.; Shao, L.; Compton, R. G.*, New Insights into Fundamental Electron Transfer from Single Nanoparticle Voltammetry. J. Phys. Chem. Lett. 2016, 7, 1554-1558. (IF = 9.3)

8.Li, X.; Batchelor-McAuley, C.; Tschulik, K.; Shao, L.; Compton, R. G.*, Ultra-Small Palladium Nanoparticle Decorated Carbon Nanotubes: Conductivity and Reactivity. ChemPhysChem 2015, 16, 2322-2325. (IF = 3.1)

9.Li, X.; Qin, X.; Zheng, H.; Yuan, H.; Guo, Y.*; Xiao, D.*, Highly Efficient Electrogenerated Chemiluminescence of Natural Chlorophyll A. Electrochem. Commun. 2015, 61, 66-69. (IF = 4.4)

10.Li, X.; Yuan, H.*; Li, L.; Xiao, D.*, Electrogenerated Chemiluminescence of Magnesium Chlorophyllin a Aqueous Solution and Its Sensitive Response to the Carcinogen Aflatoxin B1. Biosens. Bioelectron. 2014, 55, 350-354. (IF =7.8 )

11.Li, X.; Zheng, B.; Du, J.; Yuan, H.*; Xiao, D.*, A Self-Assembled Net Structured Film for the Immobilization of Tris(2,2’-Bipyridyl)Ruthenium(II) and Its Ultrasensitive Electrogenerated Chemiluminescent Sensing for Phenol. RSC Adv. 2014, 4, 467-473. (IF = 3.1)

12.Krittayavathananon, A.; Li, X.; Sokolov, S. V.; Batchelor-McAuley, C.; Sawangphruk, M.; Compton, R. G.*, The Solution Phase Aggregation of Graphene Nanoplates. Applied Materials Today 2018, 10, 122-126.

13.Krittayavathananon, A.; Li, X.; Batchelor-McAuley, C.; Sawangphruk, M.; Compton, R. G.*, Comparing the Effect of Different Surfactants on the Aggregation and Electrical Contact Properties of Graphene Nanoplatelets. Applied Materials Today 2018, 12, 163-167.

14.Yang, H.; Li, X.; Batchelor-McAuley, C.; Sokolov, S. V.; Compton, R. G.*, Nafion Particles Doped With Methyl Viologen: Electrochemistry. Phys. Chem. Chem. Phys. 2018, 20, 682-689. (IF = 4.1)

15.Little, C. A.; Li, X.; Batchelor-McAuley, C.; Young, N. P.; Compton, R. G., Particle-electrode impacts: Evidencing partial versus complete oxidation via variable temperature studies. J. Electroanal. Chem. 2018, 823, 492-498. (IF = 3.0)

16.Little, C. A.; Xie, R.; Batchelor-McAuley, C.; Katelhon, E.; Li, X.; Young, N. P.; Compton, R. G.*, A Quantitative Methodology for the Study of Particle-electrode Impacts. Phys. Chem. Chem. Phys. 2018, 20, 13537-13546. (IF = 4.1)

17.Chen, L.; Li, X.; Tanner, E. E. L.; Compton, R. G.*, Catechol Adsorption on Graphene Nanoplatelets: Isotherm, Flat to Vertical Phase Transition and Desorption Kinetics. Chem. Sci. 2017, 8, 4771-4778. (IF = 8.6)

18.Yang, H.; Li, X.; Batchelor-McAuley, C.; Sokolov, S. V.; K?telh?n, E.; Compton, R. G.*, Immobilised Electrocatalysts: Nafion Particles Doped with Ruthenium(II) Tris(2,2′-bipyridyl). Chem. Eur. J., 2017, 23, 17605-17611. (IF = 5.3)

19.Krittayavathananon, A.; Ngamchuea, K.; Li, X.; Batchelor-McAuley, C.; K?telh?n, E.; Chaisiwamongkhol, K.; Sawangphruk, M.; Compton, R. G.*, Improving Single-Carbon-Nanotube–Electrode Contacts Using Molecular Electronics. J. Phys. Chem. Lett. 2017, 8, 3908-3911. (IF = 9.3)

20.Liu, J.; Li, X.; Batchelor-McAuley, C.; Zhu, G.; Compton, R. G.*, Nitrite-Enhanced Charge Transfer to and from Single Polyaniline Nanotubes. Chem. Eur. J., 2017, 23, 17823-17828. (IF = 5.3)

21.Liu, J.; Zhu, G.; Li, X.; Batchelor-McAuley, C.; Sokolov, S. V.; Compton, R. G.*, Quantifying Charge Transfer to Nanostructures: Polyaniline Nanotubes. Applied Materials Today 2017, 7, 239-245.

22.Hodson, H.; Li, X.; Batchelor-McAuley, C.; Shao, L.; Compton, R. G.*, Single Nanotube Voltammetry: Current Fluctuations Are Due to Physical Motion of the Nanotube. J. Phys. Chem. C 2016, 120, 6281-6286. (ACS Editors' Choice) (IF = 4.5)

23.Zhang, N.; Neo, D. C. J.; Tazawa, Y.; Li, X.; Assender, H. E.; Compton, R. G.*; Watt, A. A. R.*, Narrow Band Gap Lead Sulfide Hole Transport Layers for Quantum Dot Photovoltaics. ACS Appl. Mater. Interfaces 2016, 8, 21417-21422. (IF = 7.5)

24.Qin, X.; Li, X.; Yang, L.; Wang, Z.; Zheng, B.; Yuan, H.*; Xiao, D.*, Molten-Salt Synthesis of Lamellar Ni(OH)2/NiOOH Composite and Its Application for Pseudocapacitor. J. Alloys Compd. 2014, 610, 549-554. (IF = 3.1)

25.Zheng, H.; Li, M.; Dai, J.; Wang, Z.; Li, X.; Yuan, H.*; Xiao, D.*, Double Input Capacitively Coupled Contactless Conductivity Detector with Phase Shift. Anal. Chem. 2014, 86, 10065-10070. (IF = 6.3)