一、实验室简介 厦门大学信息材料与工业智能实验室（π-Lab.XMU）由国家级青年人才项目入选者、“优青”、福建省闽江学者特聘教授、厦门大学化学化工学院副院长、化工系系主任洪文晶教授、师佳副教授、刘俊扬副教授与萨本栋微纳研究院杨扬副教授共同带领的六十余名博硕士研究生和工程研发队伍组成的跨院系跨学科研究团队，以精密仪器和人工智能研发为特色，与田中群院士实验室密切合作，进行单分子电子学研究和该尺度下的催化反应、分子组装行为的探索。以此为基础，积极开发单分子技术在光电材料辅助设计、能源转换器件优化、分子药物筛选、食品安全和高灵敏度环境传感器的应用。我们也在进行一系列面向国家战略需求和产业需求的精密仪器和工业人工智能探索，侧重于发展基于人工智能的新药研发和智能反应器设计、超高精度精密控制和超高灵敏度精确测量和传感技术，以及三维打印等智能制造系统研发。 我们团队加入了固体表面物理化学国家重点实验室(https://pcss.xmu.edu.cn/)、2011能源材料化学协同创新中心(https://2011-ichem.xmu.edu.cn/)、醇醚酯化工清洁生产国家工程实验室(https://nel.xmu.edu.cn/)和纳米材料制备技术国家地方联合研究中心。 二、课题组长 Wenjing Hong 洪文晶 教授、博士生导师、课题组长 邮箱：[email protected] 办公室：化学化工学院化学楼495（思明校区）、能源材料1号楼1201（翔安校区） 课题组网站：https://pilab.xmu.edu.cn/ 个人简历： 受教育经历 l 2009.10-2013.06，瑞士伯尔尼大学，化学与分子科学，博士研究生，导师：Thomas Wandlowski l 2007.09-2009.07，清华大学，化学，硕士研究生，导师：石高全 l 2003.09-2007.07，厦门大学，化学工程与工艺，学士 研究工作经历 l 2015.12-现在，厦门大学，教授 l 2014.01-2015.11，瑞士伯尔尼大学，Group Leader l 2013.06-2015.11，瑞士伯尔尼大学，博士后，导师：Thomas Wandlowski 人才项目 l 2016- 2019 千人 计划青年项目（青千） l 2017- 2020 基金委优秀青年科学基金（优青） l 2017- 2020 福建省杰出青年科学基金 l 2016- 2020 基金委自然科学基金面上项目（60万） l 2017- 2022 国家重点研发项目课题（200/760） 学术奖项 l 2019 中国化学会青年化学奖 l 2020 福建省青年科技奖 l 2020 霍英东教育基金会青年教师奖二等奖 三、研究兴趣 工程技术探索：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，以及面向工业生产过程的先进控制和智能制造中的核心技术探索。 基础前沿研究：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催化反应、高灵敏度环境传感器等领域的应用 四、发表文章 论文总览 5 Selected publications 1. Bai, J.#; Daaoub, A.#; Sangtarash, S.#; Li, X.#; Tang, Y.; Zou, Q.; Sadeghi, H.; Liu, S.; Huang, X.; Tan, Z.; Liu, J.; Yang, Y.; Shi, J.; Mészáros, G.; Chen, W.*; Lambert, C.*; Hong, W.*, Anti-resonance features of destructive quantum interference in single-molecule thiophene junctions achieved by electrochemical gating, Nature Materials, 2019, 18, 364-369 文章链接：Link  媒体报道国家自然科学基金委 2. Tan, Z.#; Zhang, D.#; Tian, H.-R.#; Wu, Q.#; Hou, S.; Pi, J.; Sadeghi, H.; Tang, Z.; Yang, Y.; Liu, J.; Tan, Y.-Z.; Chen, Z.-B.; Shi, J.; Xiao, Z.*; Lambert, C.*; Xie, S.-Y.*; Hong, W.*, Atomically defined angstrom-scale all-carbon junctions, Nature Communications, 2019, 10, 1748 文章链接：Link  媒体报道 国家自然科学基金委, 科技日报(Digital Paper) 3. Liu, J.; Huang, X.; Wang, F.; Hong, W.*, Quantum interference effects in charge transport through single-molecule junctions: detection, manipulation and application, Accounts of Chemical Research, 2019, 52, 151-160 文章链接：Link 4. Huang, X.#; Tang, C.#; Li, J.#; Chen, L.#; Zheng, J.; Zhang, P.; Le, J.; Li, L.; Li, X.; Liu, J.*; Yang, Y.; Shi, J.; Chen, Z.; Bai., M; Zhang, H, L.; Xia, H.; Cheng, J.*; Tian, Z.; Hong, W.*, Electric-field-induced selective catalysis of single-molecule reaction, Science Advances, 2019, 5, eaaw3072 文章链接：Link 媒体报道CHEMISTRYWORLD, 科技日报(Digital Paper) 5. Liu, J.; Zhao, X.; Zheng, J.; Huang, X.; Tang, Y.; Wang, F.; Li, R.; Pi, J.; Huang, C.; Wang, L.; Yang, Y.*; Shi, J.; Mao, B.; Tian, Z.; Bryce, M. R.*; Hong, W.*, Transition from tunneling leakage current to molecular tunneling in single-molecule junctions, Chem, 2019, 5, 390-401 文章链接：Link 媒体报道 国家自然科学基金委 All publications 2020 23. Liu, T.; Long, S.; Yao, Z.; Shi, J.; Yang, Y.*; Hong, W.*, Progress of charge transport through self-assembled monolayers by employing eutectic gallium-indium technique, Chemical Journal of Chinese Universities, DOI: 10.7503/cjcu20200725. 文章链接：Link 22. Song, H.; Hu, Y.; Li, X.; Zhao, S.; Feng, A.; Liu, J.; Yang, Y.; Hong, W.*, Advances in the research on quantum interference effects in charge transport on a single-molecule scale, Journal of Xiamen University (Natural Science), 2020, 59, 892-904 文章链接：Link 21. Tang, Y.#; Zhou, Y.#; Zhou, D.#; Chen, Y.; Xiao, Z.; Shi, J.; Liu, J.; Hong, W.*, Electric field-induced assembly in single-stacking terphenyl junctions, Journal of the American Chemical Society, 2020, 142, 19101-19109 文章链接：Link 20. Xie, H.; Xu, X.; Li, Y.; Hong, W.; Shi, J.*, Model predictive control guided reinforcement learning control scheme, 2020 International Joint Conference on Neural Networks (IJCNN). IEEE, 2020, DOI: 10.1109/IJCNN48605.2020.9207398. 文章链接：Link 19. Zeng, B.; Wang, G.; Qian, Q.; Chen, Z.; Zhang, X.; Lu, Z.; Zhao, S.; Feng, A.; Shi, J.; Yang, Y.*; Hong, W., Selective fabrication of single-molecule junctions by interface engineering, Small, DOI:10.1002/smll.202004720 文章链接：Link 18. Chen, L.; Zhen, J.; Liu, J.; Gong, X.; Chen, Z.; Guo, R.; Huang, X.; Zhang, Y.; Zhang, L.; Li, R.; Shao, X.*; Hong, W.*; Zhang, H.*, Nonadditive transport in multi-channel single-molecule circuits, Small, 2020, 16, 202808 文章链接：Link 17. Chen, Y.; Huang, L.; Chen, H.; Chen, Z.; Zhang, H.; Xiao, Z.*; Hong, W.*, Towards responsive single‐molecule device, Chinese Journal of Chemistry, DOI:10.1002/cjoc.202000420 文章链接：Link 16. Tang, C.#;Tang, Y.#, Ye, Y.; Yan, Z.; Chen, Z.; Chen, L.; Zhang, L.; Liu, J.; Shi, J.; Xia, H.*; Hong, W.*, Identifying the conformational isomers of single-molecule cyclohexane at room temperature, Chem, 2020, 6, 2770-2781 文章链接：Link Highlighted by Nature Review Chemistry 15. Zhan,  C.#; Wang, G.#; Yi, J.#; Wei, J.; Li, Z.; Chen, Z.; Shi, J.; Yang, Y.*;  Hong, W.*; Tian, Z.*, Single-molecule plasmonic optical trapping, Matter, 2020, 3, 1350-1360 14.Chen, H.#; Sangtarash, S.#*; Li, G.#; Gantenbein, M.; Cao, W.; Alqorashi, A.; Liu, J.; Zhang, C.; Zhang, Y.; Chen, L.; Chen, Y.; Olsen, G.; Sadeghi, H.; Bryce, M. R.*; Lambert, C. J.*; Hong, W.*, Exploring the thermoelectric properties of oligo(phenylene-ethynylene) derivatives, Nanoscale, 2020, 12, 15150-15156 13. Soni, S.; Ye, G.; Zheng, J.; Zhang, Y.; Asyuda, A.; Zharnikov, M.; Hong, W.*; Chiechi, R. C.*, Understanding the Role of Parallel Pathways via In-Situ Switching of Quantum Interference in Molecular Tunneling Junctions, Angewandte Chemie International Edition, 2020, 59, 14308-14312 12. Meng, M.#; Tang, Z.#; Mallick, S.#; Luo, M.; Tan, Z.; Liu, J.; Shi, J.; Yang Y.; Liu, C.*; Hong, W.*, Enhanced charge transport via d(δ)–p(π) conjugation in Mo2-integrated single-molecule junctions, Nanoscale, 2020, 12, 10320-10327 11. Zhao, S.#; Wu, Q.#; Pi, J.#; Liu, J.#; Zheng, J.; Sadeghi, H.; Wei, J.; Li, R.; Hou, S.; Yang, Y.*; Shi, J.; Chen, Z.; Xiao, Z.; Lambert, C.*; Hong, W.*, Cross-plane transport in a single-molecule two-dimensional van der Waals heterojunction, Science Advances, 2020, 6, eaba6714 Highlighted by Nature Electronics 10. Tang, Z.#; Hou, S.#; Wu, Q.#; Tan, Z.#; Zheng, J.; Li, R.; Liu, J.; Yang, Y.; Sadeghi, H.; Shi, J.; Grace, I.; Lambert, C.*; Hong, W.*, Solvent-molecule interaction induced gating of charge transport through single-molecule junctions, Science Bulletin, 2020, 65, 944-950 9.  Baghernejad, M.#; Yang, Y.#; Al-Owaedi, O. A.*; Aeschi, Y.; Zeng, B. F.; Abd Dawood, Z. M.; Li, X.; Liu, J.; Shi, J.; Decurtins, S.; Liu, S. X.*; Hong, W.*; Lambert, C. J.*, Constructive Quantum Interference in Single-Molecule Benzodichalcogenophene Junctions, Chemistry - A European Journal, 2020, 26, 5264-5269. 8. Zhuang, X.#; Zhang, A.#; Qiu, S.; Tang, C.; Zhao, S.; Li, H.; Zhang, Y.; Wang, Y.; Wang, B.; Fang, B.*; Hong, H.*, Coenzyme coupling boosts charge transport through single bioactive enzyme junctions, iScience, 2020, 23, 101001 7. Duan, P.; Liu, J.; Wang, J.-Y.; Qu, K.; Cai, S.; Wang, F.; Chen, L.; Huang, X.; Li, R.; Shi, J.; Zhang, Q.-C.*; Hong, W.*; Chen, Z.-N.*, Enhancing single-molecule conductance of platinum(II) complexes through synergistic aromaticity-assisted structural asymmetry, Science China Chemistry, 2020, 63, 467-474 6. Li, X.#; Wu, Q.#; Bai, J.#; Hou, S; Jiang, W.; Tang, C.; Song, H.; Huang, X.;Zheng, J.; Yang, Y.; Liu, J.; Hu, Y.; Shi, J.; Liu, Z.*; Lambert, C.*; Zhang, D.*; Hong, W.*, Structure-independent conductance of thiophene-based single-stacking junctions, Angewandte Chemie International Edition, 2020, 59, 3280-3286 5. Chen, H.#; Zheng, H.#; Hu, C.#; Cai, K.; Jiao, Y.; Zhang, L.; Jiang, F.; Roy, I.; Qiu, Y.; Shen D.; Feng, Y.;  Alsubaie, F.; Guo, H*; Hong, W.*; Stoddart, F.*, Giant conductance enhancement of intramolecular circuits through interchannel gating, Matter, 2020, 2, 378-389 4. Tang, C.; Zheng, J.; Ye, Y.; Liu, J.; Chen, L.; Yan, Z.; Chen, Z.; Chen, L.; Huang, X.; Bai, J.; Chen, Z.; Shi, J.; Xia, H.*; Hong, W.*, Electric-field-induced connectivity switching in single-molecule junctions, iScience, 2020, 23, 100770 3. Zhang, R.#; Xie, H.#; Cai, S.; Hu, Y.*; Liu, G.; Hong, W.*; Tian, Z.*, Transfer-learning-based Raman spectra identification, Journal of Raman Spectroscopy, 2020, 51, 176-186 2. Huang, F.; Li, R.; Wang, G.; Zheng, J.; Tang, Y.; Liu, J.; Yang, Y.; Yao, Y.; Shi, J.; Hong, W.*, Automatic classification of single-molecule charge transport data with an unsupervised machine-learning algorithm, Physical Chemistry Chemical Physics, 2020, 22, 1674-1681 1. Yang, W.; Zheng, J.; Zhang, X.; Chen, L.; Si, Y.; Huang, F.*; Hong, W.*, Charge transport through a water-assisted hydrogen bond in single-molecule glutathione disulfide junctions, Journal of Materials Chemistry C, 2020, 8, 481-486 2019 1. Bai, J.#; Daaoub, A.#; Sangtarash, S.#; Li, X.#; Tang, Y.; Zou, Q.; Sadeghi, H.; Liu, S.; Huang, X.; Tan, Z.; Liu, J.; Yang, Y.; Shi, J.; Mészáros, G.; Chen, W.*; Lambert, C.*; Hong, W.*, Anti-resonance features of destructive quantum interference in single-molecule thiophene junctions achieved by electrochemical gating, Nature Materials, 2019, 18, 364-369 文章链接：Link 媒体报道 国家自然科学基金委 2. Liu, J.; Huang, X.; Wang, F.; Hong, W.*, Quantum interference effects in charge transport through single-molecule junctions: detection, manipulation and application, Accounts of Chemical Research, 2019, 52, 151-160 3. Liu, J.; Zhao, X.; Zheng, J.; Huang, X.; Tang, Y.; Wang, F.; Li, R.; Pi, J.; Huang, C.; Wang, L.; Yang, Y.*; Shi, J; Mao, B.; Tian, Z.; Bryce, M. R.*; Hong, W.*, Transition from tunneling leakage current to molecular tunneling in single-molecule junctions, Chem, 2019, 5, 390-401 媒体报道 国家自然科学基金委 4. Tan, Z.#; Zhang, D.#; Tian, H.#; Wu, Q.#; Hou, S.; Pi, J.; Sadeghi, H.; Tang, Z.; Yang, Y.; Liu, J.; Tan, Y.; Chen, Z.; Shi, J.; Xiao, Z.*; Lambert, C.*; Xie, S.*; Hong, W.*, Atomically defined angstrom-scale all-carbon junctions, Nature Communications, 2019, 10, 1748 媒体报道 国家自然科学基金委, 科技日报(Digital Paper) 5. Zheng, H.#; Hou, S.#; Xin, C.#; Wu, Q.; Jiang, F.; Tan, Z.; Lin, L.; He, W.; Li, Q.; Zheng, J.; Zhang, L.; Liu, J.; Yang, Y.; Shi, J.; Zhang, X.; Zhao, Y.; Li, Y.*; Lambert, C.*; Hong, W.*, Room-temperature quantum interference in single perovskite quantum dot junctions, Nature Communications, 2019, 10, 5458 6. Huang, X.#; Tang, C.#; Li, J.#; Chen, L. C.#; Zheng, J.; Zhang, P.; Le, J.; Li, L.; Li, X.; Liu, J.*; Yang, Y.; Shi, J.; Chen, Z.; Bai, M.; Zhang, H. L.; Xia, H.; Cheng, J.*; Tian, Z.; Hong, W.*, Electric-field-induced selective catalysis of single-molecule reaction, Science Advances, 2019, 5, eaaw3072 媒体报道CHEMISTRYWORLD, 科技日报(Digital Paper) 7. Cai, S.#; Deng, W.#; Huang, F.; Chen, L.; Tang, C.; He, W.; Long, S.; Li, R.; Tan, Z.; Liu, J.; Shi, J.; Liu, Z.*; Xiao, Z.*; Zhang, D.*; Hong, W.*, Light-driven reversible intermolecular proton transfer at single-molecule junctions, Angewandte Chemie International Edition, 2019, 58, 3829-3833 8. Tang, C.; Chen, L.; Zhang, L.; Chen, Z.; Li, G.; Yan, Z.; Lin, L.; Liu, J.; Huang, L.; Ye, Y.; Hua, Y.; Shi, J.; Xia, H.*; Hong, W.*, Multicenter-bond-based quantum interference in charge transport through single-molecule carborane junctions, Angewandte Chemie International Edition, 2019, 58, 10601-10605 9. Zhan, C.#; Wang, G.#; Zhang, XG.; Li, ZH.; Wei, JY.; Si, Y.; Yang Y *; Hong, W.*; Tian, Z., Single-molecule measurement of adsorption free energy at the solid-liqud interface, Angewandte Chemie International Editions, 2019, 58, 14534-14538 10. Jiang, F.; Trupp, D.; Algethami, N.; Zheng, H.; He, W.; Alqorashi, A.; Zhu, C.; Tang, C.; Li, R.; Liu, J.; Sadeghi, H.; Shi J.; Davidson, R.; Korb, M.; Sobolev, A.; Naher M.;  Sangtarash, S.*; Low, P.*; Hong, W.*; Lambert, C.*, Turning the tap: conformational control of quantum interference to modulate single molecule conductance, Angewandte Chemie International Edition, 2019, 58, 18987-18993 11. Chen, Z.#; Chen, L.#; Liu, J.; Li, R.; Tang, C.; Hua, Y.; Chen, L.; Shi, J.; Yang, Y.; Liu, J.; Zheng, J.; Chen, L.; Cao, J.; Chen, H.; Xia, H.*; Hong, W.*, Modularized tuning of charge transport through highly twisted and localized single-molecule junctions, The Journal of Physical Chemistry Letters, 2019, 10, 3453-3458 12. Gantenbein, M.#; Li, X.#; Sangtarash, S.#; Bai, J.; Olsen, G.; Alqorashi, A.; Hong, W.*; Lambert, C. J.*; Bryce, M. R.*, Exploring antiaromaticity in single-molecule junctions formed from biphenylene derivatives, Nanoscale, 2019, 11, 20659-20666 13. Yao, M.#; Cao L.#; Tang Y.; Wang G; Liu R.; Kumar P.; Wu G.; Deng W.; Hong W.*; Xu G.*, Gas transport regulation in a MO/MOF interface for enhanced selective gas detection, Journal of Materials Chemistry A, 2019, 18397-18403 14. Yan, G.; Feng, Yun.; Gao, Z.; Zeng, X.#; Hong, W.; Liu, W.; Sun, Y.; Tang, X.; Lei, T.; Lin, L.*, Stable and biocompatible cellulose-based CaCO3 microspheres for tunable pH-responsive drug delivery, ACS Sustainable Chemistry & Engineering, 2019, 7, 19824-19831 15. Duan, P.#; Liu, J.#; Wang, J. Y.; Chen, L.; Wang, F.; Zhang, Q. C.*; Hong, W.*; Chen, Z. N.*, Modulation of the conductance in platinum(II) bis(acetylide) molecules through “gating” metal ion, Journal of Materials Chemistry C, 2019, 7, 7259-7266 16. Li, X.; Tan, Z.; Huang, X.; Bai, J.; Liu, J.; Hong, W.*, Experimental investigation of quantum interference in the charge transport through molecular architectures, Journal of Materials Chemistry C(invited), 2019, 7, 12790-12808 17. Jiang, W.; Yang, R.; Lin, P.; Hong, W.*; Fang, B.*, Bioinspired genetic engineering of supramolecular assembled formate dehydrogenase with enhanced biocatalysis activities, Journal of Biotechnology, 2019, 292, 50-56 18. Wu, D.#; Zheng, J.#; Xu, C., Hong; Kang, D.*; Hong, W.*; Duan, Z.*; Mathey, F.*, Phosphindole fused pyrrolo [3, 2-b] pyrroles: new single-molecule junction for charge transport, Dalton Transactions, 2019, 48, 6347-6352 19. Pan, Z.; Li, J.; Chen, L.; Tang, Y.; Shi, J.; Liu, J.*; Liao, J.*; Hong, W.*, Analytical modeling of the junction evolution in single-molecule break junctions: towards quantitative characterization of the time-dependent process, Science China Chemistry, 2019, 1869-1870 20. Yang, W.; Lei, Z.; Hong, W.*; Huang, F.*, Advances in charge transport through DNA molecular junction by employing electrodes pair with nanometer-sized separation, Acta Chimica Sinica, 2019, 77(10): 951-963 21. Zheng, H.#; Jiang, F#; He, R.; Yang Y.; Shi, J; Hong, W.*, Charge transport through peptides in single‐molecule electrical measurements, Chinese Journal of Chemistry(invited), 2019, 37, 1083-1096 22. Wang, G.; Zeng, B. F.; Zhao, S. Q.; Qian, Q. Z.; Hong, W., Yang, Y.*, Application of electrochemistry to single-molecule junctions: from construction to modulation. Science China Chemistry, 2019, 62, 1333-1345 2018 1. Zhang, Y. P. #; Chen, L. C. #; Zhang, Z. Q.; Cao, J. J.; Tang, C.; Liu, J. Y.; Duan, L. L .; Huo, Y.; Shao, X. F.; Hong, W.*; Zhang, H. L. *, Distinguishing diketopyrrolopyrrole isomers in single- molecule junctions via reversible stimuli-responsive quantum interference, Journal of the American Chemical Society, 2018, 140, 6531-6535 2. Zheng, J. #; Liu, J. #; Zhuo, Y.; Li, R.; Jin, X.; Yang, Y.*; Chen, Z.; Shi, J.; Xiao, Z.; Hong, W.*; Tian, Z.-Q., Electrical and SERS detection of disulfide-mediated dimerization in single-molecule benzene-1,4-dithiol junctions, Chemical Science, 2018, 9, 5033-5038 3. Wang, Z.#; Zhang, Q. E.#; Long, S.; Luo, Y.; Yu, P.; Tan, Z.; Bai, J.; Qu, B.; Yang, Y.*; Shi, J.; Zhou, H.; Xiao, Z.; Hong, W.*; Bai, H.*, Three-dimensional printing of polyaniline/reduced graphene oxide composite for high-performance planar supercapacitor, ACS Applied Materials & Interfaces, 2018, 10, 10437-10444 4. Liu, X.; Li, X.; Sangtarash, S*; Sadeghi, H.; Decurtins, S.; Häner, R.; Hong, W.*; Lambert, C. J.*; Liu, S.*, Probing Lewis acid–base interactions in single-molecule junctions, Nanoscale, 2018, 10, 18131-18134 5. Yang, Y.#; Gantenbein, M.#; Alqorashi, A.#; Wei, J. Y.; Sangtarash, S.; Hu, D.; Sadeghi, H.; Zhang, R.; Pi, J. C.; Chen, L. C.; Huang, X. Y.; Li, R. H.; Liu, J. Y.; Shi, J.; Hong, W.*; Lambert C.*; Bryce M. R.*, Heteroatom-induced molecular asymmetry tunes quantum interference in charge transport through single-molecule junctions, The Journal of Physical Chemistry C, 2018, 122, 14965-14970 6. Luo, Y.; Zhang, Q.; Hong, W.; Xiao, Z.*; Bai, H.*, A high-performance electrochemical supercapacitor based on a polyaniline/reduced graphene oxide electrode and a copper(ii) ion active electrolyte, Physical Chemistry Chemical Physics, 2018, 20, 131-136 7. Yang, G.; Wu, H.; Wei, J.; Zheng, J.; Chen, Z.; Liu, J.*; Shi, J.; Yang, Y.*; Hong, W.*, Quantum interference effect in the charge transport through single-molecule benzene dithiol junction at room temperature: an experimental investigation, Chinese Chemical Letters, 2018, 29, 147-150. (Invited by Prof. Xu Hou) 8. Chen, L.#; Feng, A.#; Wang, M.#; Liu, J.; Hong, W.*; Guo, X.*; Xiang, D.*, Towards single-molecule optoelectronic devices, Science China Chemistry (invited),  2018, 61, 1368-1384 9. Yang, Y.; Hong, W.*, An important step towards single-molecule reaction dynamics, Science China Chemistry, 2018, 61, 761 10. Yu, P.; Feng, A.; Zhao, S.; Wei, J.; Yang, Y.*; Shi, J.; Hong, W.*, Recent progress of break junction technique in single-molecule reaction chemistry. Acta Physico-Chimica Sinica (invited), 2019, 61, 829-839 2017 1. Huang, C.; Jevric, M.; Borges, A.; Olsen, S. T.; Hamill, J.; Zheng, J.-T.; Yang, Y.; Rudnev, A.; Baghernejad, M.; Broekmann, P.; Petersen, A. U.; Wandlowski, T.; Mikkelsen, K. V.*; Solomon, G. C.*; Nielsen, M. B.*; Hong, W.*, Single-molecule detection of dihydroazulene photo-thermal reaction using break junction technique, Nature Communications, 2017, 8, 15436 2. Li, R. H.#; Lu, Z. Y.#; Cai, Y. T.; Jiang, F.; Tang, C.; Chen, Z. X.; Zheng, J. T.; Pi, J. C.; Zhang, R.; Liu, J. Y.; Chen, Z. B.; Yang, Y.; Shi, J.; Hong, W.*; Xia, H. P.*, Switching of charge transport pathways via delocalization changes in single-molecule metallacycles junctions, Journal of the American Chemical Society, 2017, 139, 14344-14347 3. Liu, J.#; Zhao X.#; Al-Galiby Q.#; Huang X.; Zheng J.; Li R.; Huang C.; Yang Y.; Shi J.; Zsolt Manrique D.; Lambert C.*; Bryce M. R.*; Hong W.*, Radical enhanced charge transport in single-molecule phenothiazine electrical junctions, Angewandte Chemie International Edition, 2017, 56, 13061-13065 4. Liu, X.#; Sangtarash, S.#; Reber, D.#; Zhang, D.#; Sadeghi, H.; Shi, J.; Xiao, Z.-Y.; Hong, W.*; Lambert, C. J.*; Liu, S.-X.*, Gating of quantum interference in molecular junctions by heteroatom substitution, Angewandte Chemie International Edition, 2017, 56, 173-176. (ESI highly cited paper) 5. Yang, G. G.#; Sangtarash, S.#; Liu, Z. T.*; Li, X. H.; Sadeghi, H.; Tan, Z. B.; Li, R. H.; Zheng, J. T.; Dong, X. B.; Liu, J. Y.; Yang, Y.; Shi, J.; Xiao, Z. Y.; Zhang, G. X.; Lambert, C.*; Hong, W.*; Zhang, D. Q.*, Protonation tuning of quantum interference in azulene-type single-molecule junctions, Chemical Science, 2017, 8, 7505-7509 6. Li, X.; Hu, D.; Tan, Z.; Bai, J.; Xiao, Z.; Yang, Y.*; Shi, J.*; Hong, W.*, Supramolecular systems and chemical reactions in single-molecule break junctions, Topics in Current Chemistry, 2017, 375, 42. (invited by Prof. Xuefeng Guo) 7. Gantenbein, M.; Wang, L.; Al-Jobory, A. A.; Ismael, A. K.; Lambert, C. J.*; Hong, W.*; Bryce, M. R.*, Quantum interference and heteroaromaticity of para- and meta-linked bridged biphenyl units in single molecular conductance measurements, Scientific Report, 2017, 7, 1794 8. Seth, C.#; Kaliginedi, V.#*; Suravarapu, S.; Reber, D.; Hong, W.; Wandlowski, T.; Lafolet, F.; Broekmann, P.; Royal, G.*; Venkatramani, R.*, Conductance in a bis-terpyridine based single molecular breadboard circuit, Chemical Science, 2017, 8, 1576-1591 9. O’Driscoll, L. J.#; Hamill, J. M.#*; Grace, I.; Nielsen, B. W.; Almutib, E.; Fu, Y. C.; Hong, W.; Lambert, C. J.*; Jeppesen, J. O.*, Electrochemical control of the single molecule conductance of a conjugated bis(pyrrolo)tetrathiafulvalene based molecular switch, Chemical Science, 2017, 8, 6123-6130 10. He, R. Z.#; Bonaventura, I.#; Visini, R.; Gan, B. H.; Fu, Y. C.; Probst, D.; Uscher, A. L.; Ohler, T. K.; Van Delden, C.; Stocker, A.; Hong, W.; Darbre, T.; Reymond, J. L.*, Design, crystal structure and atomic force microscopy study of thioether ligated D,L-cyclic antimicrobial peptides against multidrug resistant Pseudomonas aeruginosa, Chemical Science, 2017, 8, 7464-7475 11. Yang, Y.#; Liu, J.#; Zheng, J.; Lu, M.; Shi, J.; Hong. W.; Yang, F.*; Tian, Z.*, Promising electroplating solution for facile fabrication of Cu quantum point contacts, Nano Research, 2017, 10, 3314-3323 12. Feng, A.; Bai, J.; Shao, W.; Hong, W.; Tian, Z.*; Xiao, Z.*, Surfactant-free Pd–Fe nanoparticles supported on reduced graphene oxide as nanocatalyst for formic acid oxidation, International Journal of Hydrogen Energy, 2017, 42, 15196-15202 13. Zhang, J. Y.; Feng, A. N.; Bai, J.; Tan, Z. B.; Shao, W. Y.; Yang, Y.; Hong, W.; Xiao, Z. Y.*, One-pot synthesis of hierarchical flower-like Pd-Cu alloy support on graphene towards ethanol oxidation, Nanoscale Research Letters, 2017, 12, 521 14. Šebera, J.#; Kolivoška, V.#; Valášek, M.; Gasior, J.; Sokolová, R.; Mészáros,G.; Hong, W.; Mayor, M.*; Hromadová, M.*, Tuning charge transport properties of asymmetric molecular junctions, The Journal of Physical Chemistry C, 2017, 121, 12885-12894 2016 1. Wang, L.#; Gong, Z-L.#; Li, S-Y.; Hong, W.*;Zhong, Y-W.*; Wang, D.*; Wan, L-J., Molecular conductance through a quadruple-hydrogen-bond-bridged supramolecular junction, Angewandte Chemie International Edition, 2016, 55, 12393-12397 2. Manrique, D. Z.*; Qusiy, Q.; Hong, W.; Lambert, C.* A new approach to materials discovery for electronic and thermoelectric properties of single-molecule junctions, Nano Letters, 2016, 16, 1308-1316 3. Zheng, J. T.; Yan, R. W.; Tian, J. H.; Liu, J. Y.; Pei, L. Q.; Wu, D. Y.; Dai, K.; Yang, Y.*; Jin, S.*; Hong, W.; Tian, Z. Q.*, Electrochemically assisted mechanically controllable break junction studies on the stacking configurations of oligo(phenylene ethynylene)s molecular junctions, Electrochimical Acta, 2016, 200, 268-275 2015 1. 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 International Edition, 2015, 54, 13586-13589 Publications of Prof. Wenjing Hong prior to Xiamen Univ. 1. Huang, C.; Chen, S.; ➢rns➢, 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 International Edition, 2015, 54, 14304-14307 2. 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 3. Manrique, D. Z.#; Huang, C.#; Baghernejad, M.#; Zhao, X.#; 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 4. 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) 5. 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, 11425-11431 6. 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, 4469-4476 7. Li, J.-F.*; Zhang, Y.-J.; Rudnev, A. V.; Anema, J. R.; Li, S. B.; Hong, W.; Panneerselvam, R.; Lipkowski, J.; Wandlowski, T.; Tian, Z.-Q, Electrochemical shell-isolated nanoparticle-enhanced Raman spectroscopy: correlating structural information and adsorption processes of pyridine at the Au(hkl) single crystal/solution interface, Journal of the American Chemical Society, 2015, 137, 2400-2408 8. Moreno-Garcia, P.*; La Rosa, A.*; Kolivoska, V.*; Bermejo, D.; Hong, W.; Yoshida, K.; Baghernejad, M.; Filippone, S.; Broekmann, P.; Wandlowski, T.; Martin, N.*, Charge transport in C60-based dumbbell-type molecules: mechanically induced switching between two distinct conductance states, Journal of the American Chemical Society, 2015, 137, 2318-2327 2014 1. Baghernejad, M.; Zhao, X.; ➢rns➢, 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, 17922-17925 2. Kaliginedi, V.*; Moreno-Garcia, P.; Rudnev, A.; Baghernejad, M.; Huang, C.; Hong, W.*; Wandlowski, T., Promising anchoring groups for single-molecule conductance measurements, Physical Chemistry Chemical Physics, 2014, 16, 23529-23539 (invited perspective) 3. Baghernejad, M.; Manrique, D. Z.; Li, C.; Pope, T.; Zhumaev, U.; Pobelov, I.; Moreno-García, P.; Kaliginedi, V.; Huang, C.; Hong, W.*; Lambert, C.*; Wandlowski, T., Highly-effective gating of single-molecule junctions: an electrochemical approach, Chemical Communications, 2014, 50, 15975-15978. (corresponding author) 4. Kolivoška, V.*; Mohos, M.; Pobelov, I.; Rohrbach, S.; Yoshida, K.; Hong, W.; Fu, Y.; Moreno-García, P.; Mészáros, G.; Broekmann, P.; Hromadová, M.; Sokolová, R.; Valášek, M. and Wandlowski, T., Electrochemical control of a non-covalent binding between ferrocene and beta-cyclodextrin, Chemical Communications, 2014, 50, 11757-11759 5. Gulcur, M.; Moreno-García, P.; Zhao, X.; Baghernejad, M.; Batsanov, A.; Hong, W.; Bryce, M. R.*; Wandlowski, T.*, The synthesis of functionalized diaryltetraynes and their transport properties in single-molecule junctions, European Journal of Chemistry, 2014, 20, 4653 PhD studies in University of Bern 2013 1. Zhao, X.; Huang, C.; Gulcur, M.; Batsanov, A. S.; Baghernejad, M.; Hong, W.; Bryce, M. R.*; Wandlowski, T.*, Oligo (aryleneethynylene)s with terminal pyridyl groups: synthesis and length dependence of the tunneling-to-hopping transition of single-molecule conductances, Chemistry of Materials, 2013, 25, 4340-4347 2. Kolivoska, V.*; Moreno-García, P.; Kaliginedi, V.; Hong, W.; Mayor, M.; Weibel, N.; Wandlowski, T.*, Electron transport through catechol-functionalized molecular rods, Electrochimica Acta, 2013, 110, 709-717 3. Wu, Y.; Hong, W.;Akiyama, T.; Gautsch, S.; Kolivoska, V.; Wandlowski, T.*; Rooij, N. F. de*, Batch fabrication of gold-gold nanogaps by E-beam lithography and electrochemical deposition, Nanotechnology, 2013, 24, 235302 4. Li, C.; Stepanenko, V.; Lin, M. J.; Hong, W.; Würthner, F.*; Wandlowski, T.*, Charge transport through perylene bisimide molecular junctions: an electrochemical approach, Physica Status Solidi (b), 2013, 250, 2458-2467 5. Moreno-García, P.; Gulcur, M.; Manrique, D. Z.; Pope, T.; Hong, W.; Kaliginedi, V.; Huang, C.; Batsanov, A. S.; Bryce, M. R.*; Lambert, C.*; Wandlowski, T.*, Single-molecule conductance of functionalized oligoynes: length dependence and junction evolution, Journal of the American Chemical Society, 2013, 135, 12228-12240 6. Roldan, D.; Kaliginedi, V.; Cobo, S.; Kolivoska, V.; Bucher, C.; Hong, W.;Royal, G.*; Wandlowski, T.*, Charge transport in photoswitchable dimethyldihydropyrene type single-Molecule junctions, Journal of the American Chemical Society, 2013, 135, 5974-5977 2012 1. 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(, 19425-19431.(Highlighted in Chimia) 2. Hong, W.; Manrique, D. Z.; Moreno-Garcia, P.; Gulcur, M.; Mishchenko, A.; Lambert, C. J. *; Bryce, M. R.*; Wandlowski, T.*, Single molecular conductance of tolanes: experimental and theoretical study on the junction evolution dependent on the anchoring group, Journal of the American Chemical Society, 2012, 134, 2292-2304. (Featured as JACS Spotlight) 3. Kaliginedi, V.; Moreno-Garcia, P.; Valkenier, H.; Hong, W.; Garcia-Suarez, V. M.; Buiter, P.; Otten, J. L. H.; Hummelen, J. C.*; Lambert, C. J.*; Wandlowski, T.*, Correlations between molecular structure and single junction conductance: a case study with OPE-type wires, Journal of the American Chemical Society, 2012, 134, 5262-5275.(Equal contributed with P. Moreno-Garcia, Valkenier H.; and García-Suárez V.M) 2011 1. Hong, W.; Valkenier, H.; Mészáros, G.; Manrique, D. Z.; Mishchenko, A.; Putz, A.; García, P. M.; Lambert, C. J.*; Hummelen, J. C.*; Wandlowski, T.*, A MCBJ case study: the influence of π-conjugation on the single molecular conductance at a solid/liquid interface, Beilstein Journal of Nanotechnology, 2011, 2, 699-713. (invited, Top 5 most cited paper of the journal) 2010 1. 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, 1822-1826. (Most cited paper in Journal of Physical Chemistry C 2010.4-2012.4, 246 citations) 2009 1. Xu, Y.; Hong, W.; Bai, H.; Li, C.; Shi, G.*, Strong and ductile poly(vinyl alcohol) /graphene oxide composite films with a layered structure, Carbon, 2009, 47, 3538-3543. 2. Chen, Y.; Bai, H.; Hong, W.; Shi, G.*, Fluorescence detection of mercury ions in aqueous media with the complex of a cationic oligopyrene derivative and oligothymine, Analyst, 2009, 134, 2081-2086. 3. Yao, Z.; Feng, X.; Hong, W.; Li, C.; Shi, G.*, A simple approach for the discrimination of nucleotides based on a water-soluble polythiophene derivative, Chemical Communications, 2009, 31, 4696-4698. 4. Xu, Y.; Zhao, L.; Bai, H.; Hong, W.; Li, C.; Shi, G.*, Chemically converted graphene induced molecular flattening of 5,10,15,20-tetrakis(1-methyl-4-pyridinio)porphyrin and its application for optical detection of cadmium(ii) ions, Journal of the American Chemical Society, 2009, 131, 13490-13497. 2008 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, 1555-1558. (Most cited paper on Electrochemistry Communications in 2011, 503 citations) 2. Lu, G.; Hong, W.; Tong, L.; Bai, H.; Wei, Y.; Shi, G.*, Drying enhanced adhesion of polythiophene nanotubule arrays on smooth surfaces, ACS Nano, 2008, 2, 2342-2348. 五、申请专利 l 洪文晶 | 郭维 | 师佳 | 杨扬 | 刘俊扬 | 郑珏婷 | 陈招斌，一种隔振构型的单分子电学测量装置的设计方法，2020-10-09，中国，ZL20171101126.1 l 洪文晶 | 盛诗琪 | 谭志冰 | 师佳 | 李瑞豪，一种基于单分子电学检测的手性识别方法，2020-09-25，中国，ZL201811096876.5 l 洪文晶 | 张丹 | 肖宗源 | 谭志冰 | 皮九婵 | 刘俊扬 | 师佳 | 杨扬，一种石墨烯/富勒烯/石墨烯全碳分子器件构筑方法，2020-04-10，中国，ZL201711461783.3 l 洪文晶 | 黄晓艳 | 刘俊扬 | 张珑漪 | 郑珏婷 | 师佳，一种基于单分子电学检测的反应动力学测量方法，2019-08-30，中国，ZL201710455809.7 l 洪文晶 | 皮九婵 | 刘俊扬 | 郑珏婷 | 杨扬 | 师佳 | 肖宗源，一种用于机械可控裂结技术的石墨烯电极芯片，2019-07-23，中国，ZL201710461800.7 l 洪文晶 | 杨凯 | 郭维 | 师佳 | 杨扬 | 刘俊扬 | 郑珏婷 | 魏立霄，于无噪音实验室的空调系统及其处理空气的方法，2018-05-29，中国，CN201711273667.9 l 陈香萍 | 田家利 | 邓达琴 | 洪文晶 | 李海航 | 李江标 | 邓聪秀，用一种石墨基材上耐高温涂层及其制备方法，2020-09-18，中国，CN202010546591.8 l 陈香萍 | 吴相福 | 田家利 | 邓达琴 | 洪文晶 | 李海航 | 李江标 | 邓聪秀，一种石墨表面电化学沉积镍/碳化硅耐高温复合涂层及其制备方法，2020-09-18，中国，CN202010543751.3 l 李燕群 | 张礴 | 江波 | 袁赛赛 | 洪文晶，种金/石墨烯复合二氧化钛纳米管的制备及其在空气净化中的应用，2020-05-19，中国，CN201911357523.0 l 林禄春 | 洪文晶 | 唐淳 | 潘志超 | 师佳，一种基于谱聚类的单分子电输运数据的聚类方法，2020-12-26，中国，CN201911363991.9 l 洪文晶 | 李国鹏 | 陈杭，一种基于STM-BJ的单分子结热电势测量方法及其设备，2020-06-16，中国，CN202010113503.5CN202010113503.5 l 李燕群 | 张礴 | 江波 | 袁赛赛 | 洪文晶，一种贵金属/石墨烯复合二氧化钛光催化剂的制备及其在空气净化中的应用，2020-05-08，中国，CN201911360099.5 l 吴相福 | 陈香萍 | 田家利 | 邓达琴 | 洪文晶 | 李海航 | 李江标 | 刘春根 | 邓聪秀，一种电化学-浸渍协同制备石墨耐高温复合涂层的方法，2020-10-27，中国，CN202010725589.7 l 吴相福 | 陈香萍 | 田家利 | 邓达琴 | 洪文晶 | 李海航 | 李江标 | 刘春根 | 邓聪秀，一种常温快速干燥的石墨高温抗氧化剂及其应用，2020-10-27，中国，CN202010724261.3 l 洪文晶 | 张蕊 | 胡勇，一种基于迁移学习的拉曼光谱智能分析方法，2019-09-06，中国，CN201910616759.5