姓名:刘静
性别:男
职称:研究员
职务:实验室负责人
学历:博士
电话:+86-
传真:**
电子邮件:jliu@mail.ipc.ac.cn
通讯地址:中国科学院理化技术研究所,北京中关村东路29号
简 历:1999.6-至今: 中国科学院理化技术研究所,双聘研究员
2006.8-至今: 清华大学医学院生物医学工程系,双聘教授
2004.4-2005.5: 清华大学经管学院高级经理工商管理精选课程,结业
2002.3-2002.6: 美国麻省理工学院机械工程系,高级访问****
1997.11-1999. 6: 美国Purdue大学机械工程学院,博士后
1996.3-1997.10: 清华大学能源与动力工程系,讲师
1992.9-1996.2: 清华大学能源与动力工程系,工程热物理专业,工学博士
1989. 9-1992.7: 清华大学物理系,现代应用物理专业,理学士
1987. 9-1992. 7: 清华大学能源与动力工程系,燃气轮机专业,工学士
社会任职:
研究方向:长期从事工程热物理与液态金属、生物医学工程等领域交叉科学问题研究并作出系列开创性贡献。发现液态金属诸多全新科学现象、基础效应和变革性应用途径,开辟了液态金属在芯片冷却、先进能源、印刷电子、3D打印、柔性机器人以及生物医疗等领域突破性应用,成果在世界范围产生广泛影响,为诸多国际知名科学杂志如MIT Technology Review, New Scientist等大量评介;研发的众多液态金属应用系统、高端肿瘤微创治疗装备及无线移动医学仪器等逐步得到广泛应用。出版有15部跨学科前沿著作(其中之一印刷5次)及20余应邀著作章节;发表期刊论文500余篇(30余入选所在英文期刊封面或封底故事);申报发明专利数百项(已获授权200余项)。
承担科研项目情况:大型企业产业化项目多项;国家自然科学基金面上项目等。
代表论著:Selected Books:
1. J. Liu, L. Yi, 《Liquid Metal Biomaterials: Principles and Applications》, Springer, 2018.
2. J. Liu, L. Sheng, Z. Z. He, 《Liquid Metal Soft Machines: Principles and Applications》, Springer, 2018.
3. 刘静,《液态金属物质科学基础现象与效应》,上海:上海科学技术出版社,2019.
4. 刘静,王倩,《液态金属印刷电子学》,上海:上海科学技术出版社,2019.
5. 刘静,王磊,《液态金属3D打印技术:原理及应用》,上海:上海科学技术出版社,2019.
6. 刘静,杨应宝,邓中山,《中国液态金属工业发展战略研究报告》,云南:云南科技出版社,2018.
7. 刘静, 于洋, 刘琳,《手机平台上的生物医学工程学:原理及应用》, 北京:科学出版社, 2011.
8. 刘静, 饶伟, 贾得巍,《先进低成本医疗技术》, 北京:科学出版社, 2010.
9. 刘静, 邓月光, 贾得巍,《超常规能源技术》, 北京:科学出版社, 2010.
10. 刘静, 邓中山,《肿瘤热疗物理学》, 北京:科学出版社, 2008(2018年第2次印刷).
11. 刘静,《热学微系统技术》, 北京:科学出版社, 2008.
12. 刘静,《低温生物医学工程学原理》, 北京:科学出版社, 2007.
13. 刘静,《微米/纳米尺度传热学》, 北京:科学出版社, 2001(2006年第4次印刷).
14. 劉靜,《微米奈米尺度傳熱學》, 台灣:五南出版社, 2004.
15. 刘静, 《SARS 医学中的物理热学方法与应用》, 北京:科学出版社, 2004.
16. 刘静,王存诚, 《生物传热学》, 北京:科学出版社, 1997.
Selected Articles:
1. X. Wang, W. Yao, R. Guo, X. Yang, J. Tang, J. Zhang, W. Gao, V. Timchenko, and J. Liu*, Soft and moldable Mg-doped liquid metal for conformable skin tumor photothermal therapy, Advanced Healthcare Materials, vol. 7(14), pp. **, 2018.
2. J. Tang*, X. Zhao, J. Li, and J. Liu*, Thin, Porous, and Conductive Networks of Metal Nanoparticles through Electrochemical Welding on a Liquid Metal Template, Advanced Materials Interfaces, **, 2018 (Cover story).
3. R. Guo, X. Wang, H. Chang, W. Yu, S. Liang, W. Rao, and J. Liu*, Ni-GaIn amalgams enabled rapid and customizable fabrication of wearable and wireless healthcare electronics, Adv. Eng. Mater., 2018, DOI: 10.1002/adem. (Cover story).
4. S. Xu, X. Zhao, J. Liu*, Liquid metal activated aluminum-water reaction for direct hydrogen generation at room temperature, Renewable & Sustainable Energy Reviews, 92: 17-37, 2018.
5. H. Z. Wang, B. Yuan, S. T. Liang, R. Guo, W. Rao, X. L. Wang, H. Chang, Y. Ding, J. Liu*, L. Wang*, PLUS-Material: Porous Liquid-metal Enabled Ubiquitous Soft Material, Materials Horizons, vol. 5, pp. 222-229, 2018 (Cover story).
6. L. Yi, J. Liu*, Liquid metal biomaterials: A newly emerging area to tackle modern biomedical challenges, International Materials Reviews, vol. 62, pp. 415-440, 2017 (Invited review).
7. J. Tang, X. Zhao, J. Li, Y. Zhou, and J. Liu*, Liquid metal phagocytosis: Intermetallic wetting induced particle internalization, Advanced Science, vol.5, pp. ** , 2017 (Cover story).
8. J. Tang*, X. Zhao, Y. Zhou, J. Liu*, Triggering and tracing electro-hydrodynamic liquid-metal surface convection with a particle raft, Advanced Materials Interfaces, vol.4, pp. **, 2017 (Back cover story).
9. Q. Wang, Y. Yu, J. Liu*, Preparations, characteristics and applications of the functional liquid metal materials, Advanced Engineering Materials, **, 2017 (Invited review).
10. Y. Yu, F. Liu, R. Zhang, and J. Liu*, Suspension 3D printing of liquid metal into self-healing hydrogel, Adv. Mater. Technol., **, 2017 (Cover story).
11. X. Zhao, J. Tang, and J. Liu*, Surfing liquid metal droplet on the same metal bath via electrolyte interface, Applied Physics Letters, vol. 111, pp. 101603, 2017.
12. X. Sun, B. Yuan, W. Rao, J. Liu*, Amorphous liquid metal electrodes enabled conformable electrochemical therapy of tumors, Biomaterials, vol. 146, pp. 156-167, 2017.
13. R. Guo and J. Liu*, Implantable liquid metal-based flexible neural microelectrode array and its application in recovering animal locomotion functions, J. Micromech. Microeng., vol. 27, pp. 104002, 2017.
14. L. Hu, L. Wang, Y. Ding, S. Zhan, J. Liu*, Manipulation of liquid metals on a graphite surface, Advanced Materials, vol. 28, pp. 9210-9217, 2016 (Cover story).
15. Hu L, Yuan B, Liu J. Liquid metal amoeba with spontaneous pseudopodia formation and motion capability. Scientific Reports, 2017, 7: 7256-1-9.
16. L. Wang, B. Yuan, J. Lu, S. Tan, F. Liu, L. Yu, Z. He, J. Liu*, Self-propelled and long-time transport motion of PVC particles on a water surface, Advanced Materials, vol. 28, pp. 4065–4070, 2016.
17. B. Yuan, L. Wang, X. Yang, Y. Ding, S.Tan, L.Yi, Z. He, J. Liu*, Liquid metal machine triggered violin-like wire oscillator, Advanced Science, vol. 3, pp. ** (4 pages), 2016 (Cover story).
18. L. Wang, Z. He, Y. Ding, X. Zhou, J. Liu*, The rebound motion of liquid metal droplet on flexible micro/nano needle forest, Advanced Materials Interfaces, vol.3, pp. ** (6 pages), 2016.
19. L. Wang, J. Liu*, Liquid metal patterns induced by electric capillary force, Applied Physics Letters, vol. 108, pp. 161602, 2016.
20. F. Liu, Y. Yu, L. Yi, and J. Liu*, Liquid metal as reconnection agent for peripheral nerve injury, Science Bulletin, vol. 61 (12), pp. 939–947, 2016.
21. J. Zhang, Y. Y. Yao, L. Sheng, J. Liu*, Self-fueled biomimetic liquid metal mollusk, Advanced Materials, vol. 27, 2648-2655, 2015 (Inside front cover story).
22. Q. Wang, Y. Yang, J. Yang, J. Liu*, Fast fabrication of flexible functional circuits based on liquid metal dual-trans printing, Advanced Materials, vol. 27, pp. 7109–7116, 2015 (Back cover story).
23. L. Sheng, Z. He, Y. Yao, J. Liu*, Transient state machine enabled from the colliding and coalescence of a swarm of autonomously running liquid metal motors, Small, vol. 11(39), pp. 5253-5261, 2015 (Inside front cover story).
24. S. C. Tan, H. Gui, B. Yuan, J. Liu*, Magnetic trap effect to restrict motion of self-powered tiny liquid metal motors, Applied Physics Letters, vol. 107, pp. 071904, 2015.
25. S. C. Tan, B. Yuan, Liu, J.*, Electrical method to control the running direction and speed of self-powered tiny liquid metal motors, Proceedings of The Royal Society A-Mathematical Physical and Engineering Sciences, vol. 47, DOI: 10.1098/rspa.2015.0297, 2015.
26. Y. Y. Lai, J. Liu*, Transparent soft PDMS eggshell, Science China Technological Sciences, vol. 58(2), pp. 273-283, 2015. (Featured by many science media)
27. J. Zhang, Y. Y. Yao, and J. Liu*, Autonomous convergence and divergence of the self-powered soft liquid metal vehicles, Science Bulletin, vol. 60, pp. 943-951, 2015 (Cover story).
28. L. Sheng, J. Zhang, J. Liu*, Diverse transformation effects of liquid metal among different morphologies. Advanced Materials, vol. 26, pp. 6036-6042, 2014 (Cover story).
29. Y. Yu, Q. Wang, L. T. Yi, J. Liu*, Channelless fabrication for large-scale preparation of room temperature liquid metal droplets, Advanced Engineering Materials, vol. 16, pp. 255-262, 2014 (Cover story).
30. Y. Zheng, Z. Z. He, J. Yang, J. Liu*, Personal electronics printing via tapping mode composite liquid metal ink delivery and adhesion mechanism. Scientific Reports, vol. 4, pp. 4588, 2014. (Featured by many science media)
31. J. Zhang, L. Sheng, J. Liu*, Synthetically chemical-electrical mechanism for controlling large scale reversible deformation of liquid metal objects. Scientific Reports, vol. 4, pp. 7116, 2014.
32. L. T. Yi, C. Jin, L. Wang, J. Liu*, Liquid-solid phase transition alloy as reversible and rapid molding bone cement. Biomaterials, vol. 35(37), pp. 9789-9801, 2014.
33. C. Guo, Y. Yu and J. Liu*, Rapidly patterning conductive components on skin substrates as physiological testing devices via liquid metal spraying and pre-designed mask, Journal of Materials Chemistry B, vol. 2, pp. 5739-5745, 2014 (Back cover story)
34. W.-Q. Fang, Z. Z. He and Jing Liu*, Electro-hydrodynamic shooting phenomenon of liquid metal stream, Applied Physics Letters, vol. 105, pp. 134104-1-4, 2014.
35. Q. Zhang, Y. X. Gao, J. Liu*, Atomized spraying of liquid metal droplets on desired substrate surfaces as a generalized way for ubiquitous printed electronics, Applied Physics A, vol. 116, pp. 1091–1097, 2014 (also see arXiv:1311.2158, 2013, Featured by many science media such as MIT Technology Review)
36. Q. Wang, Y. Yu, K. Pan, and J. Liu*, Liquid metal angiography for mega contrast X-ray visualization of vascular network in reconstructing in-vitro organ anatomy, IEEE Transactions on Biomedical Engineering, vol.61(7), pp. 2161-2166, 2014 (Featured by many science media).
37. L. Wang, J. Liu*, Liquid phase 3D printing for quickly manufacturing conductive metal objects with low melting point alloy ink, ScienceChinaTechnologicalSciences, vol. 57(9), pp. 1721-1728, 2014 (Cover story).
38. L. Wang, J. Liu*, Compatible hybrid 3D printing of metal and nonmetal inks for direct manufacture of end functional devices, ScienceChinaTechnologicalSciences, vol. 57(11), pp. 2089–2095, 2014.
39. J. Zhang, L. Sheng, and J. Liu*, Liquid metal as connecting or functional recovery channel for the transected sciatic nerve, arXiv:1404.5931, 2014. (Featured by more than 100 science media or web such as: New Scientist, MIT Technology Review, IEEE Spectrum, Physics Today, Daily Mail, Discovery, Geek etc.)
40. Y. Zheng, Z. Z. He, J. Yang, J Liu*, Direct desktop Printed-Circuits-on-Paper flexible electronics. Scientific Report, 3: 1786-1-7, 2013. (Feature stories by Nature Asia, National Geographic News, Chemistry World, Asian Scientist Magazine, Desktop Engineering etc.)
41. C. Jin, J. Zhang, X. K. Li, X. Y. Yang, J. J. Li, J. Liu*. Injectable 3-D fabrication of medical electronics at the target biological tissues. Scientific Reports, 3, 3442-1-7, 2013 (Featured by many science media).
42. Q. Zhang, J. Liu*, Nano liquid metal as an emerging functional material in energy management, conversion and storage, Nano Energy, vol.2, pp. 863-872, 2013 (Invited article).
43. H. S. Ge, H. Y. Li, S. F. Mei, J. Liu*, Low melting point liquid metal as a new class of phase change material: An emerging frontier in energy area, Renewable and Sustainable Energy Reviews, vol. 21, pp. 331-346, 2013.
44. H.Y. Li, Y. Yang, and J. Liu*, Printable tiny thermocouple by liquid metal gallium and its matching metal, Applied Physics Letters, vol.101, 073511, 2012.
45. D.-R. Di, Z.-Z. He, Z.-Q. Sun, and J. Liu*, A new nano-cryosurgical modality for tumor treatment using biodegradable MgO nanoparticles, Nanomedicine: Nanotechnology, Biology and Medicine, vol.8, pp.1233-1241, 2012 (Feature article & cover story).
46. Q. Zhang, Y. Zheng, J. Liu*, Direct writing of electronics based on alloy and metal ink (DREAM Ink): A newly emerging area and its impact on energy, environment and health sciences, Frontiers in Energy, vol.6(4), pp. 311-340, 2012 (Invited feature article).
47. D. Jia., W. Rao, C. Wang, C. Jin, S. Wang, D. Chen, M. Zhang, J. Guo, Z. Chang, J. Liu*, Inhibition of B16 murine melanoma metastasis and enhancement of immunity by fever-range whole body hyperthermia, International Journal of Hyperthermia, vol.27, pp. 275-285, 2011. (Cover story)
48. H. Y. Li, J. Liu*. Revolutionizing heat transport enhancement with liquid metals: Proposal of a new industry of water-free heat exchangers, Frontiers in Energy, vol. 5, pp. 20–42, 2011 (Invited feature article).
49. Y. G. Deng, J. Liu*, Design of a practical liquid metal cooling device for heat dissipation of high performance CPUs, ASME Journal of Electronic Packaging, 132(3):31009-31014, 2010 (Selected as Journal’s 2010-2011 Best Paper of the Year Award)
50. W. Rao, Z. S. Deng, and J. Liu*, A review of hyperthermia combined with radiotherapy/chemotherapy on malignant tumors, Critical Reviews? in Biomedical Engineering, vol.38, pp.106-116, 2010 (invited review).
获奖及荣誉:系2003年国家****科学基金获得者;曾获国际传热界最高奖之一“The William Begell Medal”(每4年从全球范围选出1名****授奖)、2017全国首届创新争先奖、2014中国制冷学会技术发明一等奖、ASME会刊Journal of Electronic Packaging 2010-2011年度唯一最佳论文奖,入围及入选“2015、2014两院院士评选中国十大科技进展新闻”各1次,入围2015 R&D 100 Awards Finalist,入选CCTV 科技盛典2015年度十大科技创新人物、2015中关村十大科技创新成果奖、美国《Popular Science》(中文版) 2016年度全球100项最佳科技创新奖,入选2008茅以升科学技术奖北京青年科技奖、2007中国青年科技奖等。
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中国科学院理化技术研究所导师教师师资介绍简介-刘静
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