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                    劉舉慶
                       閱讀次數: 添加時間:2015/07/22 發布者:教學管理  

                    劉舉慶, 教授,碩士生導師。

                    聯系方式:

                    辦公地點:南京市新模范馬路5號  南京工業大學丁家橋校區

                    電話:+86-25-83587980

                    Email: iamjqliu@njtech.edu.cn



                    個人簡歷:

                    劉舉慶博士于2010年在南京郵電大學取得信息材料專業博士學位, 在研期間專攻有機信息存儲技術研究。期間于2009年和2010年分別在新加坡南洋理工大學與南京方圓環球顯示技術有限公司從事訪問交流與研發管理工作,畢業同年赴新加坡南洋理工大學材料科學與工程學院從事博士后工作, 主要從事柔性電子的研發. 現為南京工業大學先進材料研究院教師.

                    近年來在國內外知名期刊Adv. Mater., Angew. Chem. Int. Ed., J. Am. Chem. Soc., ACS Nano, Small, Sci. Rep., Nanoscale, J. Phys. Chem. C., Nanotechnology 等上發表SCI科技論文近30篇, 其中論文他引700余次,單篇最高被引用100余次; 申請中國專利3項, 參加國內外學術會議10余次, 相關成果獲2011年南京市第九屆自然科學優秀學術論文二等獎; 2014年南京工業大學工大集團獎教金獲得者;目前主持國家自然科學基金2項bbin体育官网平台、省青年基金與面上項目2項.

                    研究興趣:

                    (1) 低維碳材料及其有機聚合物雜化光電材料.

                    (2) 高性能透明導電薄膜,  主要包括可延展碳基導電薄膜/金屬納米線基導電薄膜.

                    (3) 柔性電子與塑料電子器件, 這些器件有信息存儲器bbin体育官网平台、光電轉換器、薄膜晶體管、發光二極管等.

                    (4) 紡織電子與綠色電子.

                    研究基金:

                    (1) 柔性可拉伸全碳電存儲器件的設計、制備與性能研究, 國家自科基金面上項目(No.61376088), 2014/1~2017/12, 項目負責人

                    (2) 石墨烯基多階阻變材料及其超高密度信息存儲研究, 國家自科基金青年項目(No.51302134), 2014/1~2016/12, 項目負責人

                    (3) 基于碳材料柔性電存儲器件的全濕法制備與性能研究, 江蘇省自科基金青年項目(No.SBK201342485), 2013/7~2016/6, 項目負責人

                    (4) 新型石墨烯基三階電存儲器件的設計、制備與性能研究, 江蘇省高校自科基金面上項目(No.13KJB510012), 2013/8~2015/12, 項目負責人

                    (5) 新型有機電存儲器件的設計與性能研究, 江蘇省研究生創新工程基金項目(No. CX08B_083Z),  2008/9~2010/5, 項目負責人, 已完成

                    (6) 多維拓撲結構大分子光電轉換材料的設計bbin体育官网平台、合成與性能,國家自科基金(No.51173081), 參與人.

                    (7) 化學氣相沉積制備石墨烯薄膜及其器件的生物傳感性能, 國家自科基金(No.61076067), 參與人.

                    (8) 基于寬角干涉增強的高效頂發射白光有機發光器件及其穩定機制研究, 國家自科基金(No. 60907047), 參與人.

                    (9) 多功能有機/聚合物分子機器半導體bbin体育官网平台bbin体育官网平台、動態行為與光電器件, 國家自科基金(No. 60876010), 參與人.

                    (10) 碳納米管和碳納米管束的拉伸強度分布研究, 國家自科基金(No. 10572079), 參與人.

                    (11) 混雜功能化碳納米管/聚合物復合材料的研究, 國家自科基金(No. 10772102), 參與人.

                    代表性論文(IF>7):

                    1. X. Hong, C. L. Tan, J. Q. Liu, J. Yang, X. J. Wu, Z. X. Fan, Z. M. Luo, J. Z. Chen, X. Zhang, B. Chen, H. Zhang. AuAg nanosheets assembled from ultrathin AuAg nanowires. Journal of the American Chemical Society, 137, 1444-1447 (2015).

                    2. X. Huang, B. Zheng, Z. D. Liu, C. L. Tan, J. Q. Liu, B. Chen, H. Li, J. Z. Chen, X. Zhang, Z. X. Fan, W. N. Zhang, Z. Guo, F. W. Huo, Y. H. Yang, L. H. Xie, W. Huang, H. Zhang. Coating two-dimensional nanomaterials with metal-organic frameworks. ACS Nano, 8, 8695-8701 (2014).

                    3. X. Hong, J. Q. Liu, B. Zheng, X. Huang, X. Zhang, C. L. Tan, J. Z. Chen, Z. X. Fan, H. Zhang. A universal method for preparation of noble metal nanoparticle-decorated transition metal dichalcogenide nanobelts. Advanced Materials, 26, 6250-6254 (2014).

                    4. G. Z. Sun, J. Q. Liu (Co-1st authors), X. Zhang, X. W. Wang, H. Li, Y. Yu, W. Huang, H. Zhang, P. Chen. Fabrication of ultralong hybrid microfibers from nanosheets of reduced graphene oxide and transition metal dichalcogenides and their application as supercapacitors. Angewandte Chemie International Edition, 53, 12576-12580 (2014).

                    5. H. Li, J. Wu, X. Huang, Z. Y. Yin, J. Q. Liu, H. Zhang. A universal, rapid method for clean transfer of nanostructures onto various substrates. ACS Nano, 8, 6563-6570 (2014).

                    6. X. J. Wu, X. Huang, J. Q. Liu, H. Li, J. Yang, B. Li, W. Huang, H. Zhang. Two-dimensional CuSe nanosheets with microscale lateral size: synthesis and template-assisted phase transformation. Angewandte Chemie International Edition, 53, 5083-5087 (2014).

                    7. J. Q. Liu, Z. Y. Yin, X. H. Cao, F. Zhao, L. H. Wang, W. Huang, H. Zhang. Fabrication of flexible, all-reduced graphene oxide nonvolatile memory devices. Advanced Materials, 25, 233-238 (2013).

                    8. G. Z. Sun, J. Q. Liu (Co-1st authors), L. X. Zheng, W. Huang, H. Zhang. Preparation of weavable, all carbon fibers for non-volatile memory devices. Angewandte Chemie International Edition, 52, 13351-13355 (2013).

                    9. J. Wu, H. Li, Z. Y. Yin, H. Li, J. Q. Liu, X. H. Cao, Q. Zhang, H. Zhang. Layer thinning and etching of mechanically exfoliated MoS2 nanosheets by thermal annealing in air. Small, 9, 3314-3319 (2013).

                    10. Z. Y. Yin, Z. Y. Zeng, J. Q. Liu, Q. Y. He, P. Chen, H. Zhang. Memory devices using the mixture of MoS2 and graphene oxide as the active layer, Small, 9, 727-731 (2013).

                    11. J. Q. Liu, Z. Y. Zeng, X. H. Cao, G. Lu, L. H. Wang, Q. L. Fan, W. Huang, H. Zhang. Preparation of MoS2-polyvinylpyrrolidone nanocomposites for flexible nonvolatile rewritable memory devices with reduced graphene oxide electrodes. Small, 8, 3517-3522 (2012).

                    12. F. Zhao, J. Q. Liu (Co-1st authors), X. Huang, X. Zou, G. Lu, P. Sun, S. Wu, W. Ai, M. Yi, X. Qi, L. H. Xie, J. L. Wang, H. Zhang, W. Huang. Chemoselective photodeoxidization of graphene oxide using sterically hindered amines as catalyst: synthesis and applications. ACS Nano, 6, 3027-3033 (2012)

                    13. X. Huang, Z. Y. Zeng, Z. X. Fan, J. Q. Liu, H. Zhang. Graphene-Based Electrodes. Advanced Materials, 24, 5979-6004 (2012, Review).

                    14. J. Q. Liu, Z. Q. Lin, T. J. Liu, Z. Y. Yin, X. Z. Zhou, S. F. Chen, L. H. Xie, F. Boey, H. Zhang, W. Huang. Multilayer-stacked, low temperature-reduced graphene oxide films: preparation, characterization and application in polymer memory devices. Small, 6, 1536-1542 (2010).

                    15. J. Q. Liu, Z. Y. Yin, X. H. Cao, F. Zhao, A. P. Ling, L. H. Xie, Q. L. Fan, F. Boey, H. Zhang, W. Huang. Bulk heterojunction polymer memory devices with reduced graphene oxide as electrodes. ACS Nano, 4, 3987-3992 (2010).

                    代表性學術報告:

                    1. J. Q. Liu, W. Huang. Carbon-based nonvolatile memory devices. International Conference on Molecular Electronic Materials and Devices, MEMD. (5-8 January, 2015), Hong Kong.

                    2. J. Q. Liu, H. Zhang. Nonvolatile memory devices based on two-dimensional materials. New diamond and new carbon conference, NDNC. (19-23 May, 2013), Singapore.

                    3. J. Q. Liu, Z. Y. Yin, L. H. Xie, H. Zhang, W. Huang. Polymer nonvolatile memory devices based on reduced graphene oxide electrodes. Diamond 2010 (21st European Conference on Diamond, Diamond-Like Materials, Carbon Nanotubes and Nitrides. (5-9 September, 2010), Budapest, Hungary.

                    4. J. Q. Liu, L. H. Xie, H. F. Ling, S. F. Chen, W. Huang. Fabrication and characterization of reduced graphene oxide films with low sheet resistance. The 8th National Symposium on Electronic Process Organic Solids (14-17 June, 2010), Xi’an, China.

                    5. J. Q. Liu, F. Zhao, W. Ai, L. H. Xie, W. Huang. Graphene-based conducting films and their applications in organic electronics. The 9th China International Nanoscience and Technology Symposium. (15-19 November, 2010), Xi’an, China.

                    6. J. Q. Liu, S. F. Chen, L. H. Xie, and W. Huang. Hysteresis effect in a micro-current rectifying diode based on an organic/inorganic hybrid single-component electroactive polystyrene post-functionalized carbazole moieties and CdTe nanocrystals. International Conference on Organic Electronics (15-17 June, 2009), Liverpool, UK.

                    7. J. Q. Liu, T. Xiao, K. Liao and P. Wu. Interfacial design and mechanical properties of carbon nanotube polymer composites. The Chinese Conference of Theoretical and Applied Mechanics-2007 (2007), Beijing, China.


                    歡迎有志于從事碳電子材料與器件的同學加盟本課題組!特別歡迎材料、物理bbin体育官网平台、化學、光學bbin体育官网平台、電子背景的同學,也歡迎本科畢業設計(FYP)學生


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