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南京工业大学先进材料研究院导师教师师资介绍简介-刘举庆▍LIUJu
本站小编 Free考研考试/2021-03-20
刘举庆 教授 博士生导师
国家优秀青年基金获得者
联系方式:
办公地点:南京市新模范马路5号 南京工业大学丁家桥校区
Email: iamjqliu@njtech.edu.cn
个人简历:
主要从事柔性电子材料与器件研究, 重点面向新一代数据存储与发光显示技术,研发系列具有信息存储与发光功能的柔性电子材料与器件. 近年来在国内外著名期刊Adv. Mater., Adv. Sci., Angew. Chem. Int. Ed., J. Am. Chem. Soc., ACS Nano, Small等上发表SCI科技论文,共被引3000余次,H因子23; 申请或授权中国发明专利20余项, 相关成果获2016年教育部高等学校科学研究优秀成果一等奖、江苏省教育科学研究成果一等奖等, 主持完成或在研包括国家重点研发计划课题、国家自然科学基金等国家省部级基金. 长期担任Nature Communications、Advanced Materials、Advanced Electronic Materials等国际期刊的审稿人、国家基金委项目函评专家.
研究兴趣:
(1) 信息存储,主要包括有机/碳基信息存储材料与器件.
(2) 智能电子,主要包括感知识别记忆、记忆皮肤电子、柔性多功能光电薄膜等.
(3) 绿色电子,主要包括可降解、可循环绿色碳基电子材料与器件.
研究基金:
(1) 国家重点研发计划课题(2017YFB**)微纳真三维显示材料及结构,负责人
(2) 国家优秀青年基金(**), 柔性碳基信息存储材料与器件, 负责人
(3) 国家自然科学基金(**), 柔性可拉伸全碳电存储器件的设计、制备与性能研究, 负责人
(4) 国家自然科学基金(**), 石墨烯基多阶阻变材料及其超高密度信息存储研究, 负责人
(5) 江苏省自然科学基金(BK**), 基于碳材料柔性电存储器件的全湿法制备与性能研究, 负责人
(6) 江苏省高校自科基金(13KJB510012), 新型石墨烯基三阶电存储器件的设计、制备与性能研究, 负责人
(7) 江苏研究生创新工程基金(CX08B_083Z), 新型有机电存储器件的设计与性能研究, 负责人
代表性论文:
1. T. Y. Ye, F. Xiu, S. Cheng, C. Ban, Z. Tian, Y. Chen, Y. M. Ding, Z. W. Zhen, J. Q. Liu*, W. Huang*. Recyclable and Flexible Dual-mode Electronics with Light and Heat Management. ACS Nano, accepted, (2020).
2. X. P. Zhang, T. Y. Ye, X. H. Meng, L. H. Pang, Y. J. Han, H. Li, G. Lu, F. Xiu, H. D. Yu*, J. Q. Liu*, W. Huang*. Sustainable and transparent fish gelatin films for flexible electroluminescent devices. ACS Nano, 14, 3876-3884, (2020).
3. Z. D. Liu, C. Song, Y. H. Yin, X. J. Wang, M. J. Zhang, Y. Z. Chang, L. H. Xie*, J. Q. Liu*, W. Huang*. Flexible Metal-free Memory Electronic made of π-Conjugation-Interrupted Hyperbranched Polymer Switch and Reduced Graphene Oxide Electrodes. Macromolecular Materials and Engineering, 305, **, (2020)
4. Y. X. Li, X. M. Dong, M. N. Yu, W. Liu, Y. J. Nie, M. Eginligil, J. Q. Liu*, W. J. Jiang, X. J. Wang, C. X. Xu, L. H. Xie*, W. Huang*. Enhanced Emission in Organic Microcrystal via Asymmetrical Design of Spirocyclic Aromatic Hydrocarbons. Nanoscale. 12, 9964-9968, (2020).
5. X. J. Wang, Z. Zhou, C. Y. Ban, Z. P. Zhang, S. Ju, X. Huang, H. W. Mao, Q. Chang, Y. H. Yin, M. Y. Song, S. Cheng, Y. M. Ding, Z. D. Liu, R. L. Ju, L. H. Xie, F. Miao, J. Q. Liu*, W. Huang*. Multifunctional polymer memristor via bi-Interfacial topography for artificial somatosensory recognition. Advanced Science, 7, ** (2020).
6. Y. C. Hu, Y. B. Chen, H. W. Mao, Y. Y. Wu, Z. Zhou, T. F. Jiang, Z. H. Tian, J. Q. Liu*, F. Xiu*, W. Huang*. A transparent flexible volatile memory with ultrahigh On/Off ratio and ultralow switching voltage. Organic Electronics, 82, 105708 (2020).
7. S. Cheng, T. Y. Ye, H. W. Mao, Y. Y. Wu, W. J. Jiang, C. Y. Ban, Y. H. Yin, J. Q. Liu*, F. Xiu*, W. Huang*. Electrostatically assembled carbon dots/boron nitride nanosheets hybrid nanostructures for thermal-quenching resistant white phosphors. Nanoscale, 12, 524-529 (2020).
8. Y. H. Yin, Z. Zhou, X. J. Wang, H. W. Mao, C. Y. Ban, Y. B. Chen, J. Q. Liu*, Z. D. Liu*, W. Huang*. Hierarchical hollow-pore nanostructure bilayer heterojunction comprising conjugated polymers for high performance flash memory. ACS Applied Materials & Interfaces, 12, 1103-1109 (2020).
9. H. W. Mao, C. Gu, S. Q. Yan, Q. Xin, S. Cheng, P. Tan, X. J. Wang, F. Xiu, X. Q. Liu, J. Q. Liu*, W. Huang*, L. B. Sun*. MXene quantum dots/polymer hybrid structures with tunable electrical conductance and resistive switching for nonvolatile memory devices. Advanced Electronic Materials, 6, ** (2020).
10. Y. J. Zhang, L. J. Tang, H. L. Sun*, S. H. Ling, K. Yang, M. A. Uddin, H. Guo, Y. M. Tang, Y. Wang, K. Feng, Y. Q. Shi, J. Q. Liu*, S. M. Zhang*, H. Y. Woo, X. G. Guo*. Fused Bithiophene Imide Oligomer and Diketopyrrolopyrrole Copolymers for n-Type Thin-Film Transistors. Macromolecular Rapid Communications, 40, ** (2019).
11. C. Gu, H. W. Mao, W. Q. Tao, X. J. Wang, Z. Zhou, P. Tan, S. Cheng, W. Huang, X. Q. Liu*, L. B. Sun*, J. Q. Liu*. Facile synthesis of Ti3C2TX-Polyvinylpyrrolidone nanocomposites for nonvolatile memory devices with low switching voltage. ACS Applied Materials & Interfaces, 11, 38061-38067 (2019).
12. Z. Zhou, F. Xiu, T. F. Jiang, J. X. Xu, J. Chen, J. Q. Liu*, W. Huang*. Solution-processable zinc oxide nanorodes and a reduced graphene oxide hybrid nanostructure for highly flexible and stable memristor. Journal of Materials Chemistry C, 7, 10764-10768 (2019).
13. Z. D. Liu, Y. H. Yin, X. J. Wang, S. Ju, M. Y. Song, Z. Zhou, X. J. Wang, S. Cheng, Z. P. Zhang, J. Q. Liu*, W. Huang*. Two-dimensional conjugated microporous polymer with structural stability and electrical bistability for rectifying memory array. Advanced Intelligent Systems, 1, ** (2019).
14. Y. M. Ding, S. Cheng, Q. Chang, S. Ju, C. Y. Ban, Z. Zhou, H. W. Mao, J. Q. Liu*, F. Xiu*, W. Huang*. A recyclable nanocarbon white emitter via the synergy between carbon dot and organic sheet. ACS Sustainable Chemistry and Engineering, 7, 14677-14684 (2019).
15. S. Cheng, Y. M. Ding, Q. Chang, S. N. Zhong, W. Shen, H. W. Mao, X. T. Zhai, G. Lu, Z. T. Deng, J. Q. Liu*, F. Xiu*, W. Huang*. Wash-induced multicolor tuning of carbon nano-dot/micro-belt hybrids with full recyclability and stable color convertibility. Nanoscale, 11, 14592-14597 (2019).
16. C. Y. Ban, X. J. Wang, Z. Zhou, H. W. Mao, M. Y. Song, S. Ju, S. Cheng, Z. P. Zhang, Z. D. Liu, H. Li, J. Q. Liu*, W. Huang*. A universal strategy for high performance stretchable polymer memristors via tailoring nanostructured surface. Scientific Reports, 9, 10337 (2019).
17. Q. Chang, Y. M. Ding, S. Cheng, W. Shen, Z. Zhou, Y. H. Yin, T. Sun, C. Y. Ban, Z. T. Deng, J. Q. Liu*, F. Xiu*, W. Huang*. Quench-resistant and stable nanocarbon dot/sheet emitters with tunable solid-state fluorescence via aggregation-induced color switching. Nanoscale, 11, 2131-2137 (2019).
18. Z. Zhou, Y. M. Ding, H. Y. Ma, L. J. Cao, X. Wang, X. Huang, J. Q. Liu*, W. Huang*. Bilayer nanocarbon heterojunction for full-solution processed all-carbon visible photodetector. APL Materials, 7, 031501 (2019).
19. T. Sun, F. Xiu, Z. Zhou, C. Y. Ban, T. Y. Ye, Y. M. Ding, J. Q. Liu*, W. Huang*. Transient fiber-shaped flexible electronics comprising dissolvable polymer composites toward multicolor lighting. Journal of Materials Chemistry C, 7, 1472-1476 (2019)
20. H. W. Mao, Z. Zhou, X. J. Wang, C. Y. Ban, Y. M. Ding, T. Sun, Y. H. Yin, Z. D. Liu, J. Q. Liu*, W. Huang*. Control of resistive switching voltage by nanoparticle-decorated wrinkle interface. Advanced Electronic Materials, 4, ** (2019).
21. Y. H. Yin, Z. D. Liu, M. Y. Song, S. Ju, X. J. Wang, Z. Zhou, H. W. Mao, Y. M. Ding, J. Q. Liu*, W. Huang*. Direct photopolymerization and lithography of multilayer conjugated polymer nanofilms for high performance memristors. Journal of Materials Chemistry C, 6, 11162-11169 (2018).
22. Z. Zhou, H. W. Mao, X. J. Wang, T. Sun, Q. Chang, Y. Y. Chen, F. Xiu, M. Y. Song, Z. D. Liu, J. Q. Liu, W. Huang. Transient and flexible memristors utilizing full-solution processed polymer nanocomposites. Nanoscale, 10, 14824-14829 (2018)
23. Z. D. Liu, Y. H. Yin, F. Xiu, X. J. Wang, S. Ju, M. Y. Song, J. Chen, J. Q. Liu, W. Huang. Large-area patterned 2D conjugated microporous polymers via photomask-assisted solid-state photopolymerization. Journal of Materials Chemistry C, 6, 7295-7301 (2018)
24. Y. Y. Chen, H. Lu, F. Xiu, T. Sun, Y. M. Ding, J. Q. Liu, W. Huang. Transient light emitting devices based on soluble polymer composites. Scientific Reports, 8, 6408 (2018)
25. J. Chen, X. J. Wang, H. Lu, Z. D. Liu, F. Xiu, C. Y. Ban, Z. Zhou, M. Y. Song, S. Ju, Q. Chang, J. Q. Liu, W. Huang. Reduced graphene oxide electrodes with wrinkled surface for nonvolatile polymer memory device compatibility. Small Methods, 2, ** (2018)
26. Y. M. Ding, Q. Chang, F. Xiu, Y. Y. Chen, Z. D. Liu, C. Y. Ban, S. Cheng, J. Q. Liu, W. Huang. Zero- and two-dimensional hybrid carbon phosphors for high colorimetric purity white light-emission. Nanoscale, 10, 4189-4193 (2018)
27. Z. D. Liu, M. Y. Song, S. Ju, X. Huang, X. T. Shi, Y. Zhu, Z. Wang, X. J. Wang, J. Chen, H. Li, Y. C. Cheng, X. H. Xie, J. Q. Liu, W. Huang. Wafer-scale ultrathin two-dimensional conjugated microporous polymers: preparation and application in heterostructure devices. ACS Applied Materials & Interfaces, 10, 4010-4017 (2018).
28. R. Shi, X. J. Wang, Z. Wang, L. J. Cao, M. Y. Song, X. Huang, J. Q. Liu, W. Huang. Fully solution-processed transparent nonvolatile and volatile multifunctional memory devices from conductive polymer and graphene oxide. Advanced Electronic Materials, 3, ** (2017).
29. L. Zhao, B. L. Dong, S. Z. Li, L. J. Zhou, L. F. Lai, Z. W. Wang, S. L. Zhao, M. Han, K. Gao, M. Lu, X. J. Xie, B. Chen, Z. D. Liu, X. J. Wang, H. Zhang, H. Li, J. Q. Liu, H. Zhang, X. Huang, W. Huang. Interdiffusion reaction-assisted hybridization of two-dimensional metal-organic frameworks and Ti3C2Tx nanosheets for electrocatalytic oxygen evolution. ACS Nano, 11, 5800-5807, (2017)
30. Z. Z. Du, W. Ai, C. C. Sun, C. J. Zou, J. F. Zhao, Y. Chen, X. C. Dong, J. Q. Liu, G. Z. Sun, T. Yu, W. Huang. Engineering the Li storage properties of graphene anodes: defect evolution and pore structure regulation. ACS Applied Materials & Interfaces, 8, 33712-33722 (2016)
31. 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).
32. 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).
33. 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).
34. 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).
35. 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).
36. 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).
37. 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).
38. 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).
39. 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).
40. 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).
41. 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).
42. 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)
43. X. Huang, Z. Y. Zeng, Z. X. Fan, J. Q. Liu, H. Zhang. Graphene-Based Electrodes. Advanced Materials, 24, 5979-6004 (2012, Review).
44. 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).
45. 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).
代表性报告:
1. J. Q. Liu. Low-Dimensional Nanocarbon Phosphors for High Performance White Light Emission. The 14th International Conference on Nanostructured Materials, NANO 2018. (24-29 June, 2018), Hong Kong
2. J. Q. Liu. Carbon Electronics for Information Storage and Displays. The 9th International Conference on Information Optics and Photonics. (17-20 July, 2017), Harbin, China (IT)
3. J. Q. Liu. Carbon-based Resistive Memory Materials and Devices. 第十届全国有机发光和光电性质学术会议. (7-10 July, 2017), Taiyuan, China (IT)
4. J. Q. Liu. Solution-Processable Flexible Memory Devices based on 2D Materials. The 3th International Symposium of Flexible and Stretchable Electronics (ISFSE 2017). (29-30 June, 2017), Wuhan, China (IT)
5. J. Q. Liu. Towards Solution Processed All-carbon Flexible Memories for Data Storage. CHINANO 2015 Conference & Expo. (28-30 October, 2015), Suzhou, China
6. J. Q. Liu, H. Zhang, W. Huang. Towards All-carbon Nonvolatile Memory Devices: Design and Fabrication. ICMAT2015 & IUMRS-ICA2015. (28 June to 03 July, 2015), Singapore
7. 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.
8. 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.
9. 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.
10. 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.
11. 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.
12. 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.
13. 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.
欢迎有志于从事柔性电子材料与器件的本科生、研究生、博士后加盟本课题组!也欢迎具有材料、物理、化学、光学、电子背景的学生进行本科毕业设计(FYP)。
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肖德宝教授E-mail:iamdbxiao@njtech.edu.cn2015.10至今:南京工业大学先进材料研究院教授、博士生导师;2008.4~2015.7:燕山大学环境与化学工程学院教授、副院长(2013.1~2015.7);2006.1~2008.2:法国昂热大学CNRS博士后研究员;200 ...南京工业大学师资导师 本站小编 Free考研考试 2021-03-20南京工业大学先进材料研究院导师教师师资介绍简介-王琳▍WANGLin
王琳,教授、博士生导师出生年月:1986年9月联系方式Email:iamlwang@njtech.edu.cn课题组网站:https://www.x-mol.com/groups/wanglin南京工业大学科技创新大楼B508教育背景2005年9月-2009年6月武汉大学学士学位(物理学基地班)20 ...南京工业大学师资导师 本站小编 Free考研考试 2021-03-20南京工业大学先进材料研究院导师教师师资介绍简介-熊伟伟▍XIONGWei
熊伟伟,教授,博士生导师联系方式地址:南京市新模范马路5号南京工业大学丁家桥校区邮编:210009Email:iamwwxiong@njtech.edu.cn个人简历2015.4-至今,南京工业大学,先进材料研究院,教授2012.6-2015.4,新加坡南洋理工大学,材料科学与工程学院,博士后200 ...南京工业大学师资导师 本站小编 Free考研考试 2021-03-20南京工业大学先进材料研究院导师教师师资介绍简介-谢小吉▍XIEXiao
纳米光电材料研究所副所长男,教授,博士生导师。联系方式办公地点:南京市新模范马路5号南京工业大学丁家桥校区创新大楼Email:iamxjxie@njtech.edu.cn个人简历谢小吉博士于2009年毕业于南京大学,获得化学学士学学位。2009年加入新加坡国立大学LiuXiaogang教授课题组,于 ...南京工业大学师资导师 本站小编 Free考研考试 2021-03-20南京工业大学先进材料研究院导师教师师资介绍简介-张伟娜▍ZHANGWei
张伟娜,博士,教授,硕士生导师联系方式地址:南京市新模范马路5号南京工业大学丁家桥校区邮编:210009EMAIL:iamwnzhang@njtech.edu.cn教育和工作背景2015.8-至今,南京工业大学,先进材料研究院,教授2014-2015新加坡南洋理工大学,博士后2011-2014新加坡 ...南京工业大学师资导师 本站小编 Free考研考试 2021-03-20