Wenjing Hong 洪文晶Professor 教授

Prof. Wenjing Hong has been full professor on chemical engineering and process control since 2015.8. His research is mainly focused on single-molecule electronics, catalyst, assembly, sensing, and relevant instrumental development. 30+ peer-reviewed papers are published in top journals of chemistry, including 2 papers on Nat. Commun. (as corresponding author), 13 papers in JACS and Angew. Chem. (5 papers as corresponding and 2 papers as first author), and 2 invited reviews in Chem. Soc. Rev. and PCCP, respectively. All these papers have been cited for 2000+ times, while the most cited paper has been cited 500+ times since 2008.

Link to my google citations and researchgate.

2015年起任职厦门大学教授并入围中组部“青年千人”项目。

致力于单分子器件和单分子尺度催化和组装研究,以及精密科学仪器开发和相应控制和“大数据”统计算法探索。自2008年以来,在Nature Communications (2篇,通讯), JACS或ACIE (13篇,5篇通讯,2篇一作)等国际顶尖期刊发表论文30余篇,并应邀作为通讯作者在Chemical Society ReviewsPhysical Chemistry Chemical Physics等发表综述。在国际顶尖学术机构和学术会议应邀报告十余次,并与国际十多个有机合成和理论模拟课题组保持密切合作关系。

迄今论文总引用2000余次,篇均引用愈50次,单篇最高引用500余次,石墨烯领域两篇论文分别成为Electrochemical Communications和Journal of Physical Chemistry杂志年度/三年最佳引用论文。2011年获Electrochemical Communications Award,2012年获中国政府自费留学奖学金,2013年获教育部高等学校科学研究优秀成果一等奖(第五完成人),2014年获伯尔尼大学教职员奖。担任包括JACS, Angwandte Chemie, ACS Nano, Electrochemistry Communications, Nano Research, PCCP,JPCC等杂志独立审稿人。开发用于MCBJ数据统计分析的WA-BJ单分子实验数据分析处理程序包,该程序已为超过十台MCBJ和STMBJ单分子测试仪器提供支持。

目前研究主要包括

工程探索:进行一系列面向单分子空间尺度-皮飞秒时间尺度-皮飞安电流灵敏度并与磁场、微波、光谱耦合的精密科学仪器研发,以及微纳尺度加工工艺的精密控制问题探索。

科学研究:通过单分子电子学和光谱学测试,从分子乃至功能基团水平为有机光电材料设计、小分子药物筛选、能量存储和转换器件优化提供实验指导,并探索单分子尺度研究在模型反应、高灵敏度环境传感器等领域的应用。

Research Experience 研究经历

12.2015-

Professor, Department of Chemical and Biochemical Engineering, Xiamen University, P. R. China

01.2014- 11.2015

Taking Lead of Molecular Electronics Group, Department of Chemistry and Biochemistry, University of Bern, Switzerland (Prof. Thomas Wandlowski)

07.2013- 12.2013

Postdoc, Department of Chemistry and Biochemistry, University of Bern, Switzerland (Prof. Thomas Wandlowski)

Education 教育背景
PhD. of Science (summa cum laude) Molecular Electronics 10.2009-06.2013

Department of Chemistry and Biochemistry, University of Bern, Switzerland (Prof. Thomas Wandlowski)

Master of Science Material Chemistry and Physics 09.2007-07.2009

Department of Chemistry, Tsinghua University, China (Prof. Gaoquan Shi  石高全)

Bachelor of Engineering (with honors) Chemical Process Control 09.2003-07.2007

Department of Chemical and Biochemical Engineering, Xiamen University, China  (Prof. Qingyin Jiang 江青茵)

Selected Publications 代表性论文

Electrochemical gating for single-molecule electronics 电化学驱动的单分子器件

  1. Huang, C.; Rudnev, A.; Hong, W.;* Wandlowski, T. “Break junction under electrochemical gating: testbed for single-molecule electronics”, Chemical Society Reviews, 2015, 44, 889-901 (invited review)
  2. Li, Y.; Baghernejad, M.; Qusiy, Q.; Manrique, D. Z.; Zhang, G.; Hamill, J.; Fu, Y.; Broekmann, P.; Hong, W.;* Wandlowski, T.; Zhang, D.;* Lambert, C.* “Three states single-molecule naphthalenediimide switch: integration of pendant redox unit for conductance tuning”, Angewandte Chemie Int. Ed., 2015, in press, DOI: 10.1002/anie.201506458R1.
  3. Baghernejad, M.; Zhao, X., Ørnsø, K.B.; Füeg, M.; Moreno-Garcia, P.; Rudnev, A., Kaliginedi, V.; Vesztergom, S.; Huang, C.; Hong, W.;* Broekmann, P.; Wandlowski, T.; Thygesen, K.;* Bryce, M. R.* “Electrochemical control of single-molecule conductance by Fermi-level tuning and conjugation switching.” Journal of the American Chemical Society 2014, 136(52), 17922–17925.

Connectivity driven conductance and quantum interference effect in graphene like molecules 类石墨烯共轭分子的连接位点效应和量子干涉效应研究

  1. Manrique, D.Z.; Huang, C.; Baghernejad, M.; Zhao, X.; A. Al-Owaedi, O; Sadeghi, H.; Kaliginedi, V.; Hong, W.;* Gulcur, M; Wandlowski, T.; Bryce, M. R.;* Lambert, C.* “A quantum circuit rule for interference effects in single-molecule electrical junctions”, Nature Communications, 2015, 6, 6389.
  2. Sangtarash, S*; Huang, C; Sadeghi, H; Sorohhov, G; Hauser, J; Wandlowski, T; Hong, W;* Decurtins, S; Liu, S.-X.;* Lambert C.*”Searching the Hearts of Graphene-like Molecules for Simplicity, Sensitivity, and Logic” Journal of the American Chemical Society, 2015, 137(35), 11425-11431.
  3. Geng, Y.; Sangtarash, S.;* Huang, C.; Sadeghi, H.; Fu, Y.; Hong, W.;* Wandlowski, T.; Decurtins, S.; Lambert, C.;* Liu, S.-X.* “Magic ratios for connectivity-driven electrical conductance of graphene-like molecules.” Journal of the American Chemical Society, 2015, 137(13), 4469–4476.

Surface functionalization of metal electrodes 金属电极的表面修饰

  1. Fu, Y.; Chen, S.; Kuzume, A.; Rudnev, A.; Huang, C.; Kaliginedi, V.; Baghernejad, M.; Hong, W.;* Wandlowski, T.; Decurtins, S.; Liu S-X.* “Exploitation of desilylation chemistry in tailor-made functionalization on diverse surfaces”, Nature Communications, 2015, 6, 6403.
  2. Huang, C.; Chen, S.; Ørnsø, K.B.; Reber, D.; Baghernejad, M.; Fu, Y.; Wandlowski, T.; Decurtins, S.; Hong, W.;* Thygesen, K. S.;* Liu, S.-X;* “Controlling electrical conductance through a π-conjugated cruciform molecule via selective anchoring to gold electrodes” Angewandte Chemie Int. Ed., 2015, accepted, DOI: 10.1002/anie.201506026R1
  3. Hong, W.; Li, H.; Liu, S.-X.; Fu, Y.; Li, J.; Kaliginedi, V.; Decurtins, S.; Wandlowski, T. “Trimethylsilyl terminated oligo(phenylene ethynylene)s: an approach to single-molecule junctions with covalent Au–C bonds.” Journal of the American Chemical Society 2012, 134(47), 19425–19431.(Highlighted in Chimia)
  4. Hong, W.; Manrique, D. Z.; Moreno-Garcia, P.; Gulcur, M.; Mishchenko, A.; Lambert, C. J. *; Bryce, M. R.*; Wandlowski, T.* “Selection of promising anchoring group for molecular electronics: experimental and theoretical study on tolane-derivatives.” Journal of the American Chemical Society 2012, 134(4), 2292–2304. (Featured as JACS Spotlight)

Graphene based materials for catalysis 基于石墨烯的电催化材料

  1. Hong, W.; Xu, Y.; Lu, G.; Li, C.; Shi, G. “Transparent graphene/PEDOT-PSS composite films as counter electrodes of dye-sensitized solar cells.” Electrochemistry Communications 2008, 10(10): 1555-1558. (Most cited paper on Electrochemistry Communications in 2011, 428 citations)
  2. Hong, W.; Bai, H.; Xu, Y.; Yao, Z.; Gu, Z.; Shi, G. “Preparation of gold nanoparticle/graphene composites with controlled weight contents and their application in biosensors.” Journal of Physical Chemistry C 2010, 114(4):1822-1826. (Most cited paper in Journal of Physical Chemistry C4-2012.4, 246 citations)

 

Selected awards 主要奖项

  1. ISE Travel Award for Young Electrochemist, International Society of Electrochemistry 国际电化学会Electrochemica Acta 青年化学旅行奖(2015)
  2. Faculty Prize, Faculty of Science, University of Bern 瑞士伯尔尼大学教职员奖 (2014)
  3. First Prize Award of the National Outstanding Research Achievement in Universities (for the contribution in graphene based electrocatalyst during master studies) , Ministry of Education, China 教育部高等学校科学研究优秀成果一等奖(科学技术):第五完成人 (2013)
  4. Chinese Government Award for Outstanding Oversea Students 中国政府自费留学奖学金(2013)
  5. Chemistry Travel Award, Swiss Academy of Sciences / Swiss Chemical Society 瑞士化学会/瑞士科学院青年化学旅行奖 (2012)
  6. Electrochemistry Communications Award 2011 for the Best Cited Paper of the Year 电化学通讯Electochemistry Communications年度最佳应用论文奖(2012)

 

Selected Seminars/Invited talks 邀请报告

  1. Single-molecular electronics under electrochemical gating, ISE 66th annual meeting Taipei, 9/10/2015
  2. Single-molecular electronics meet electrochemistry, International Fischer Symposium, Luebeck, Germany, 9/6/2015
  3. Charge transport in Single-molecule scale: What can we learn from single-molecule electronics?, EPFL, Lausanne, 25/10/2014
  4. Break junction under electrochemical gating: Testbed for single-molecule electronics, International Workshop: Controlled Charge and Heat Transport at the Molecular Scale, Konstanz, 1/10/2014
  5. Introduction to single-molecule electronics, ETHz, Zurich, 22/5/2014
  6. Electrochemical gating in single-molecule electronics, MOLESCO project kick-off meeting, Madrid, 30/3/2014
  7. From single-molecule wires to single-molecule switches, Tsinghua University, Beijing, 14/03/2014
  8. From single-molecule wires to single-molecule switches, Xiamen University, Xiamen, 10/03/2014
  9. From molecular wires to molecular switches, CSIC, Barcelona, 14/01/2014
  10. Charge transport through single-molecule junctions: from molecular wire to molecular switch, IBM Zurich Research Lab, Zurich, 24/6/2013
  11. From single-molecule conductance to single-molecule device, IPCAS, Beijing, 21/6/2013
  12. From single-molecule conductance to single-molecule device, ICCAS, Beijing 20/6/2013
  13. Bridge from chemical structure to single molecular conductance: anchoring group, length, conjugation level, and HOMO-LUMO gaps, FUNMOLS meeting on molecular electronics, IBM Zurich Research Lab, Zurich 16/1/2012
  14. Selection of a promising chemical anchoring group for molecular electronics: experimental and theoretical study on tolane-derivatives, 2nd German-French Nanoscience Workshop, Karlsruhe, 31/8/2011
  15. Complementary single molecule charge transport studies with STM and MCBJ approach, Workshop on molecular electronics, EMPA, Zurich, 25/6/2011