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2005-2009年,山东大学,化学与化工学院,本科
2009-2014年,北京大学,化学与分子工程学院,博士(导师:郭雪峰教授)
2014-2016年,中国科学院化学研究所,博士后 (合作导师:朱道本院士)
2016-2020年,美国加州大学洛杉矶分校,博士后 (合作导师:段镶锋教授)
2020年至今,南开大学,电子信息与光学工程学院,教授,博导
2020年入选南开大学百名青年学术学科带头人计划
2021年入选国家级青年人才计划
研究内容:长期从事单分子功能器件、量子调控、芯片制造的研究,在单分子开关、分子隧穿场效应器件等领域取得了一系列重要研究成果。发表相关研究论文100余篇,其中以通讯/第一(含共同)作者发表论文 79 篇(近五年来 56 篇),包括Science 1篇、Science Advances 4篇、Chem 2篇、Matter 1篇、Nature Communications2 篇、Advanced Materials 2 篇、Journal of the American Chemical Society 7 篇、Angewandte Chemie International Edition 3 篇、Nano Letters 3 篇、ACS Nano 1 篇、CCS Chemistry 1 篇和 Chemical Review 1 篇等;全部论文他引超 7000 多次,H 因子 39;多项研究成果作为亮点被 Nature、Science、National Science Review、Chemical and Engineering News 和 Chemistry World 等知名杂志和媒体报道。其中单分子开关器件的研究成果被评为“中国高等学校十大科技进展”和“中国科学十大进展”;因在高灵敏功能分子器件领域做出的重要贡献荣获教育部自然科学奖一等奖(第 2 完成人);因在新一代单分子器件及检测技术领域做出的重要贡献荣获北京市自然科学奖一等奖(第 2 完成人)。申请中国发明专利 36 项、授 16项,授权美国发明专利 1 项。作为秘书协助组织了“第 329期双清论坛(2023)”、“第 716 届香山科学会议(2022)”,作为副主席组织了“智能单分子生物学研讨会(2022)”;《SmartMat》期刊优秀青年编委,《Nanomaterials》期刊编委。
研究领域和兴趣:
1. 单分子光电子器件
2. 单分子量子调控
3. 微纳光电子器件
4. 芯片制造技术
5. 人工智能器件基础
主持或参加的科研项目:
[1]国家自然科学基金委员会,国家重点研发计划项目,表面单分子激发态及其演化的精准表征与调控,2024-12至2029-11,375万元,待结题,负责人
[2]国家自然科学基金委员会,国家重点研发计划项目,蛋白质的单分子与系综多模态测量方法研究,2021-12至2026-11,85万元,待结题,参与
[3]国家自然科学基金委员会,面上项目,基于富勒烯衍生物的单分子器件的构筑及物性研究,2022-01至2025-12,60万元,待结题,负责人
[4]国家自然科学基金委员会,国家海外青年人才项目,国家海外青年人才项目,2021-1至2023-12,200万元,已结题,负责人
[5]国家研究中心开放课题,BNLMS202105,单分子存储器的应用基础研究,2022-1至2023-12,40万元,已结题,负责人
[6]天津市共建经费项目,C029211109 ,单分子电致发光器件的构筑,2021-05至 2021-12,110,已结题, 负责人
[7]天津市共建经费项目,C029215002,单分子科学研究中心,2021-05至 2021-12,650万元,已结题,参加
[8]天津市共建经费项目,C029205006,单分子的新奇物性及其调控 ,2020-01至 2020-12,1800万元,已结题,参加
[9]面上项目,21373014,分子开关器件的设计、构筑和性能研究,2014-01至 2017-12,84万元,已结题,参加
[10] 重大研究计划,91333102,表面等离子体共振增强的新型高效太阳能电池,2014-01至 2016-12,91万元,已结题,参加
[11] 国家重大科学研究计划,2012CB921404,异质界面诱导的新奇量子现象和调控, 2012-01至2016-12,635万元,已结题,参加
[12] 青年科学基金项目,21003002,基于硅纳米线的单分子器件研究,2011-01至 2013-12,19 万元,已结题,参加
[13] 国家自然科学基金委员会, 面上项目, 21373014, 分子开关器件的设计、构筑和性能研究, 2014-01至2017-12, 84万元, 已结题, 参加
[14] 国家自然科学基金委员会, 重大研究计划, 91333102, 表面等离子体共振增强的新型高效太阳能电池, 2014-01至2016-12, 91万元, 已结题, 参加
[15] 国家重大科学研究计划, 2012CB921404, 异质界面诱导的新奇量子现象和调控, 2012-01至2016-12, 635万元, 已结题, 参加
[16] 国家自然科学基金委员会, 青年科学基金项目, 21003002, 基于硅纳米线的单分子器件研究, 2011-01至2013-12, 19万元, 已结题, 参加
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支持扩展名:.rar .zip .doc .docx .pdf .jpg .png .jpeg主持或参加的科研项目:
[1]国家自然科学基金委员会,国家重点研发计划项目,表面单分子激发态及其演化的精准表征与调控,2024-12至2029-11,375万元,待结题,负责人
[2]国家自然科学基金委员会,国家重点研发计划项目,蛋白质的单分子与系综多模态测量方法研究,2021-12至2026-11,85万元,待结题,参与
[3]国家自然科学基金委员会,面上项目,基于富勒烯衍生物的单分子器件的构筑及物性研究,2022-01至2025-12,60万元,待结题,负责人
[4]国家自然科学基金委员会,国家海外青年人才项目,国家海外青年人才项目,2021-1至2023-12,200万元,已结题,负责人
[5]国家研究中心开放课题,BNLMS202105,单分子存储器的应用基础研究,2022-1至2023-12,40万元,已结题,负责人
[6]天津市共建经费项目,C029211109 ,单分子电致发光器件的构筑,2021-05至 2021-12,110,已结题, 负责人
[7]天津市共建经费项目,C029215002,单分子科学研究中心,2021-05至 2021-12,650万元,已结题,参加
[8]天津市共建经费项目,C029205006,单分子的新奇物性及其调控 ,2020-01至 2020-12,1800万元,已结题,参加
[9]面上项目,21373014,分子开关器件的设计、构筑和性能研究,2014-01至 2017-12,84万元,已结题,参加
[10] 重大研究计划,91333102,表面等离子体共振增强的新型高效太阳能电池,2014-01至 2016-12,91万元,已结题,参加
[11] 国家重大科学研究计划,2012CB921404,异质界面诱导的新奇量子现象和调控, 2012-01至2016-12,635万元,已结题,参加
[12] 青年科学基金项目,21003002,基于硅纳米线的单分子器件研究,2011-01至 2013-12,19 万元,已结题,参加
[13] 国家自然科学基金委员会, 面上项目, 21373014, 分子开关器件的设计、构筑和性能研究, 2014-01至2017-12, 84万元, 已结题, 参加
[14] 国家自然科学基金委员会, 重大研究计划, 91333102, 表面等离子体共振增强的新型高效太阳能电池, 2014-01至2016-12, 91万元, 已结题, 参加
[15] 国家重大科学研究计划, 2012CB921404, 异质界面诱导的新奇量子现象和调控, 2012-01至2016-12, 635万元, 已结题, 参加
[16] 国家自然科学基金委员会, 青年科学基金项目, 21003002, 基于硅纳米线的单分子器件研究, 2011-01至2013-12, 19万元, 已结题, 参加
论文:
代表性论著(注:*代表通讯作者)
[1] ChuanchengJia#; Agostino Migliore#; Na Xin#;Shaoyun Huang#; Jinying Wang; Qi Yang;Shuopei Wang; Hongliang Chen; Duoming Wang; Boyong Feng; Zhirong Liu; GuangyuZhang; Da−Hui Qu; He Tian; Mark A. Ratner; H. Q. Xu*; Abraham Nitzan*; andXuefeng Guo*; Covalently−Bonded Single Molecule Junctions with Stable andReversible Photoswitched Conductivity, Science,2016, 352 (6292): 1443−1445. Highlighted by Science (aperspective article; Science2016, 352,1394), Chemical and Engineering News, Chemistry World, and National Science Review.
[2] Chuancheng Jia; Zhaoyang Lin; YuHuang*; Xiangfeng Duan*; Nanowire Electronics: From Nanoscale to Macroscale, Chemical Reviews, 2019, 119 (15): 9074−9135.
[3] Chunyan Gao, Qinghua Gao, Cong Zhao, Yani Huo, Zhizhuo Zhang, Jinlong Yang*, Chuancheng Jia*, Xuefeng Guo*; Technologies for investigating single-molecule chemical reactions, National Science Review, 2024, 11, nwae236.
[4] Miao Zhang, Zewen Wu, Hongxing Jia, Peihui Li, Lei Yang, Jie Hao, Jinying Wang, Enyu Zhang, Linan Meng, Zhuang Yan, Yi Liu, Pingwu Du*, Xianghua Kong*, Shengxiong Xiao*, Chuancheng Jia*, Xuefeng Guo*; Distinct armchair and zigzag charge transport through single polycyclic aromatics, Science Advances,2023, 9, eadg4346.
[5]Zhuang Yan, Xingxing Li, Yusen Li, Chuancheng Jia*, Na Xin, Peihui Li, Linan Meng, Miao Zhang, Long Chen*, Jinlong Yang*, Rongming Wang*, Xuefeng Guo*; Single-molecule field effect and conductance switching driven by electric field and proton transfer, Science Advances, 2022, 8, eabm3541.
[6] Peihui Li, Songjun Hou, Qingqing Wu, Yijian Chen, Boyu Wang, Haiyang Ren, Jinying Wang, Zhaoyi Zhai, Zhongbo Yu*, Colin J. Lambert*, Chuancheng Jia*, Xuefeng Guo*; The role of halogens in Au–S bond cleavage for energy-differentiated catalysis at the single-bond limit, Nature Communications, 2023, 14, 7695.
[7] Cong Zhao, Jiazheng Diao, Zhao Liu, Jie Hao, Suhang He, Shaojia Li, Xingxing Li, Guangwu Li*, Qiang Fu*, Chuancheng Jia*, Xuefeng Guo*; Electrical monitoring of single-event protonation dynamics at the solid-liquid interface and its regulation by external mechanical forces, Nature Communications, 2024, 15, 8835.
[8] PeihuiLi; Chuancheng Jia*; XuefengGuo*;StructuralTransition Dynamics in Carbon Electrode-Based Single-Molecule Junctions, ChineseJournal of Chemistry, 2021, 39 (2):223−231.(Cover ofthis issue)
[9] Chuancheng Jia,Bangjun Ma, Na Xin, and Xuefeng Guo*, Carbon Electrode-Molecule Junctions: AReliable Platform for Molecular Electronics, Accountsof Chemical Research2015, 48, 2565. (Cover of this issue)
[10] Chuancheng Jia andXuefeng Guo*, Molecule-Electrode Interfaces in Molecular Electronic Devices, Chemical Society Reviews2013, 42.5642. (Cover of this issue)
近5年内发表的部分论著
[1]Li Zhou†, Miao Zhang†, Yani Huo, Liping Bai, Suhang He, Jinying Wang *, Chuancheng Jia *, and Xuefeng Guo *, Application of Ionic Liquids in Single-Molecule Junctions: Recent Advances and Prospects, Green Energy Environ. 2024.
[2]Hongyu Ju†, Jinying Wang†, Wangping Liu†, Jie Hao†, Mengmeng Li, Yanxia Xu, Boyu Wang, Suhang He, Kunrong Mei*, Andrew C.-H. Sue*, Keqiu Chen*, Chuancheng Jia*, and Xuefeng Guo*, Single-Molecule Characterization of van der Waals Contact Between Alkane and Gold, CCS Chem. 2024.
[3]Yilin Guo†, Mingyao Li†, Cong Zhao, Yanfeng Zhang, Chuancheng Jia*, and Xuefeng Guo*, Understanding Emergent Complexity from a Single-Molecule Perspective, JACS Au 2024, 4, 1278.
[4]Hongyu Ju†, Li Cheng†, Mengmeng Li†, Kunrong Mei*, Suhang He*, Chuancheng Jia*, and Xuefeng Guo*, Single-Molecule Electrical Profiling of Peptides and Proteins, Adv. Sci. 2024, 2401877.
[5]Yanxia Xu, Jie Hao, Hongyu Ju, Suhang He, Jinying Wang*, Chuancheng Jia*, and Xuefeng Guo*, Identifying π-π and π-Lone Pair Interactions in a Single-Molecule Junction, ACS Mater. Lett. 2024, 6, 1961.
[6] Jie Hao, Boyu Wang, Cong Zhao, Yani Huo, Jinying Wang*, Chuancheng Jia*, and Xuefeng Guo*, Multiple-Channel and Symmetry-Breaking Effects on Molecular Conductance via Side Substituents, Sci. China Mater. 2024, 67, 1994.
[7]Chunyan Gao†, Qinghua Gao†, Cong Zhao, Yani Huo, Zhizhuo Zhang, Jinlong Yang*, Chuancheng Jia*, and Xuefeng Guo*, Technologies for Investigating Single-Molecule Chemical Reactions, Natl. Sci. Rev. 2024, 11, nwae236.
[8]Xiao Wei†, Jinying Wang†, Xinyue Chang, Suhang He, Ping Duan*, Chuancheng Jia*, and Xuefeng Guo*, Interfacial Stereoelectronic Effect Induced by Anchoring Orientation, Nano Lett. 2024, 24, 9399.
[9]Miao Zhang1, Boyu Wang1, Hongxing Jia1, Cong Zhao 1, Jie Hao, Wenzhe Liu, Li Zhou, Enyu Zhang, Ying Chen, Pingwu Du*, Jinying Wang* ,Chuancheng Jia*, and Xuefeng Guo*, Precise Regulation of Ultralow Conductance Attenuation in Single-Molecule Hexabenzocoronene Oligomers, ACS Mater. Lett. 2024, 6, 4388.
[10]Hongyu Ju§, Boyu Wang§, Mengmeng Li§, Jie Hao, Wei Si, Shuxin Song, Kunrong Mei, Andrew C.-H. Sue*, Jinying Wang*, Chuancheng Jia*, and Xuefeng Guo*, Tracking Non-covalent Interactions of π, π-hole and Ion in Molecular Complexes at the Single-Molecule Level, J. Am. Chem. Soc. 2024, 146, 25290.
[11]Chunyan Gao1, Wei Si1, Yani Huo, Yating Xiang, Guangwu Li, Jinying Wang ⁎,Chuancheng Jia ⁎, and Xuefeng Guo ⁎,Device Engineering of Monolayer-based Electronics, Nano Today 2024, 59, 102472.
[12]Xiao Wei, Xinyue Chang, Jie Hao, Fengyi Liu, Ping Duan*, Chuancheng Jia*, and Xuefeng Guo*, In Situ Detection of Interfacial Ions at the Single-bond Level, J. Am. Chem. Soc. 2024.
[13]Haixin Zhang†, Yunxuan Zhu†, Ping Duan†, Mehrdad Shiri, Sai Yelishala, Shaocheng Shen, Ziqi Song, Chuancheng Jia*, Xuefeng Guo*, Longji Cui*, and Kun Wang*, Energy Conversion and Transport in Molecular-Scale Junctions, Appl. Phys. Rev. 2024.
[14]Yilin Guo†, Chen Yang†, Lei Zhang†, Yujie Hu, Jie Hao, Chuancheng Jia, Yang Yang, Yan Xu, Xingxing Li, Fanyang Mo*, Yanwei Li*, Kendall N. Houk*, and Xuefeng Guo*, Full On-Device Manipulation of Olefin Metathesis for Precise Manufacturing, Nat. Nanotechnol. 2024.
[15]Hongliang Chen*, Chuancheng Jia, Xin Zhu, Chen Yang, Xuefeng Guo*, and J. Fraser Stoddart*, Reactions in Single-Molecule Junctions, Nat. Rev. Mater. 2023, 8,165.
[16]Mingyao Li, Bing Yin, Chunyan Gao, Jie Guo, Cong Zhao, Chuancheng Jia*, and Xuefeng Guo*, Graphene: Preparation, Tailoring and Modification, Exploration 2023, 03, 20210233.
[17]Li Cheng, Chuancheng Jia* and Xuefeng Guo*, Opportunities and Challenges of Single Molecule Science, Chin. Sci. Bull. 2023, 68, 17.
[18]Chen Yang†, Yanwei Li†, Shuyao Zhou, Yilin Guo, Chuancheng Jia, Zhirong Liu, Kendall N. Houk*, Yonatan Dubi*, and Xuefeng Guo*, Real-time monitoring of reaction stereochemistry through single-molecule observations of chirality-induced spin selectivity,Nat. Chem. 2023.
[19]Peihui Li†, Wan Xiong†, Jinying Wang†, Jie Hao†, Mingpeng Li, Boyu Wang, Yijian Chen, Wei Si, Haiyang Ren, Guangwu Li, Yongsheng Chen, Jingtao Lü*, Hongtao Zhang*, Chuancheng Jia*, and Xuefeng Guo*, Exploring electronic characteristics of acceptor-donor-acceptor type molecules by single-molecule charge transport, Adv. Mater. 2023, 2301876.
[20]Sujun Chen, Dingkai Su, Chuancheng Jia, Yanwei Li, Xingxing Li, Xuefeng Guo*, David A. Leigh*, Liang Zhang*, Real-Time Observation of the Dynamics of an Individual Rotaxane Molecular Shuttle Using a Single Molecule Junction, Chem 2022, 8, 243.
[21]Peihui Li, Yijian Chen, Boyu Wang, Mengmeng Li, Dong Xiang*, Chuancheng Jia*, and Xuefeng Guo*, Single-Molecule Optoelectronic Devices: Physical Mechanism and Beyond, Opto-Electron. Adv. 2022, 5, 210094.
[22]Yilin Guo, Chen Yang, Huiping Li, Lei Zhang, Shuyao Zhou, Xin Zhu, Huanyan Fu, Zhizhou Li, Zhirong Liu, Chuancheng Jia, Zitong Liu*, Wenguang Zhu*, Fanyang Mo*, Deqing Zhang*, and Xuefeng Guo*, Accurate Single-Molecule Kinetic Isotope Effects, J. Am. Chem. Soc. 2022, 144, 3146.
[23] Xinmiao Xie†, Peihui Li†, Yanxia Xu, Li Zhou, Yong Yan, Linghai Xie*, Chuancheng Jia*, and Xuefeng Guo*, Single-Molecule Junction: A Reliable Platform for Monitoring Molecular Physical and Chemical Processes, ACS Nano 2022, 16,3476.
[24]Linan Meng‡, Na Xin‡, Chen Hu‡, Hassan Alsabea‡, Miao Zhang‡, Hongyu Jiang, Yiru Ji, Chuancheng Jia, Zhuang Yan, Qinghua Zhang, Lin Gu, Xiaoyan He, Pramila Selvanathan, Lucie Norel, Stéphane Rigaut*, Hong Guo*, Sheng Meng*, and Xuefeng Guo*, Dual-Gated Single-Molecule Field-Effect Transistors beyond Moore's Law, Nat. Commun. 2022, 13, 1410.
[25]Hanqiu Nie, Cong Zhao, Zujin Shi*, Chuancheng Jia*, and Xuefeng Guo*, Single-Molecule Fullerenes: Current Stage and Perspective, ACS Mater. Lett. 2022, 4, 1037.
[26] Peihui Li†, Li Zhou†, Cong Zhao†, Hongyu Ju, Qinghua Gao, Wei Si, Li Cheng, Jie Hao, Mengmeng Li, Yijian Chen, Chuancheng Jia*, and Xuefeng Guo*, Single-Molecule Nano-Optoelectronics: Insights from Physics, Rep. Prog. Phys. 2022, 85, 086401.
[27]Lei Zhang†, Chen Yang†, Chenxi Lu†, Xingxing Li, Yilin Guo, Jianning Zhang, Jinglong Lin, Zhizhou Li, Chuancheng Jia, Jinlong Yang, K. N. Houk*, Fanyang Mo*, and Xuefeng Guo*, Precise Electrical Gating of the Single-Molecule Mizoroki-Heck Reaction, Nat. Commun. 2022, 13, 4552.
[28]Peihui Li §, Songjun Hou§, Bader Alharbi §, Qingqing Wu, Yijian Chen, Li Zhou, Tengyang Gao, Ruihao Li, Lan Yang, Xinyue Chang, Gang Dong, Xunshan Liu, Silvio Decurtins, Shi-Xia Liu*, Wenjing Hong*, Colin J. Lambert*, Chuancheng Jia*, and Xuefeng Guo*, Quantum interference-controlled conductance enhancement in stacked graphene-like dimers, J. Am. Chem. Soc. 2022, 144, 15689.
[29] Xin Zhu, Boyu Wang, Wan Xiong, Shuyao Zhou, Kai Qu, Jing-Tao Lü*, Hongliang Chen*, Chuancheng Jia*, and Xuefeng Guo*, Vibration-Assisted Charge Transport through Positively Charged Dimer Junctions, Angew. Chem. Int. Ed. 2022, 61, e202210939.
[30] Mingyao Li, Huanyan Fu, Boyu Wang, Jie Cheng, Weilin Hu, Bing Yin, Peizhen Peng, Shuyao Zhou, Xike Gao*, Chuancheng Jia*, and Xuefeng Guo*, Dipole-modulated charge transport through PNP-type single-molecule junctions, J. Am. Chem. Soc. 2022, 144, 20797.
[31]Chen Yang, Lei Zhang, Huiping Li, Yilin Guo, Chuancheng Jia, Wenguang Zhu*, Fanyang Mo*, and Xuefeng Guo*, Single-Molecule Electrical Spectroscopy of Organocatalysis, Matter 2021, 4, 1.
[32]Zhizhou Li, Chun Yan Gao, Dingkai Su, Chuancheng Jia*, and Xuefeng Guo*, Principles of Molecular Machines at the Single-Molecule Scale, ACS Mater. Lett. 2021, 3, 1484.
[33]Chunyan Gao, Li Cheng, Chuancheng Jia*, and Xuefeng Guo*, Photoisomerization effects in molecular devices, Sci. Sin. Chim. 2021, 51.
[34]Yilin Guo, Chen Yang, Chuancheng Jia, and Xuefeng Guo*, Accurate Single-Molecule Indicator of Solvent Effects, JACS Au 2021, 1, 2271.
[35]Na Xin‡, Chen Hu‡, Hassan AI Sabea‡, Miao Zhang‡, Chenguang Zhou‡, Linan Meng, Chuancheng Jia, Yao Gong, Yu Li, Guojun Ke, Xiaoyan He, Pramila Selvanathan, Lucie Norel, Mark A. Ratner, Zhirong Liu*, Shengxiong Xiao*, Stéphane Rigaut*, Hong Guo*, and Xuefeng Guo*, Tunable Symmetry-Breaking-Induced Dual Functions in Stable and Photoswitched Single-Molecule Junctions, J. Am. Chem. Soc. 2021, 143, 20811.
[36]Peihui Li, Chuancheng Jia*, and Xuefeng Guo*, Molecule Based Transistors: From Macroscale to Single Molecule, Chem. Rec. 2020, 20, 1.
代表专利:
[1] 贾传成;李佩慧;郭雪峰;一种垂直单分子场效应晶体管集成器件及制备方法,2022-10-28, 中国, CN 112563330B.
[2] 贾传成;李萌萌;句宏宇;郭雪峰;一种基于交叉阵列结构设计的单分子膜忆阻器及其制备方法,2024-11-10,中国,CN 118368907 B.
[3] 贾传成;周丽;李萌萌;郭雪峰;具有拓扑纠缠结构的[2]索烃化合物和垂直单分子膜忆阻器,2024-09-27,中国,CN 116496293 B.
[4] 贾传成;张毓哲;司伟;郭洁;郭雪峰;一种基于双栅调控的单分子场效应晶体管及其制备方法,2024-09-10,中国,CN 118234253 B.
[5] 贾传成; 宋子琦;段平;赵璁;李明遥;郭雪峰;基于单磷光分子场效应管的单光子源及其制备方法,2023-09-29,中国,CN 116709880 B.
[6] Xuefeng Guo; Chuancheng Jia; Na Xin; Hongliang Chen;Mingliang Li; Dahui Qu; Photoisomeric compounds and device comprising the same,2020-07-02, 美国,US 20200212328 A1.
获奖:
[1] 贾传成(2/5); 北京市科学技术委员会,北京市科学技术奖,一等奖, 2023
[2] 贾传成(2/4);高灵敏功能分子电子器件的设计、构筑及性能研究, 教育部, 高等学校科学研究优秀成果奖(科学技术)自然科学奖, 一等奖, 2017
[3] 贾传成;研制出首个稳定可控的单分子电子开关器件, 科技部, 中国科学十大进展, 2016
[4] 贾传成;世界首例真实稳定可控的单分子电子开关器件, 教育部,中国高等学校十大科技进展, 2016
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