2007
1. 刘静,低温生物医学工程学原理,北京:科学出版社,2007 (印数3000册).
2. J. Liu, Thermoresistive Flow Sensors, to appear in Encyclopedia of Micro- and Nanofluidics, D. Li, Ed., Springer, 2007 (invited chapter).
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2006
一、著作章节:
1. 刘静,微米/纳米尺度传热学,北京:科学出版社,2006年12月第4次印刷.
(该著作迄今总印数已达8500册)
2. 李腾, 刘静, 芯片冷却技术的最新研究进展及其评价, 学科发展蓝皮书2005卷,pp.675-687, 北京:中国科学技术出版社,2006.
(注:该文最初发表于“制冷学报,vol.25(3), pp.22-32, 2004”,后被选入由中国科学技术协会及国家自然科学基金委员会联合编辑的“学科发展蓝皮书2005卷”中)
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2005
一、著作章节:
1. 刘静,王洪武,肿瘤低温冷冻过程中的监测技术,pp.131-142,<<现代肿瘤靶向治疗技术>>,王洪武主编,北京:中国医药科技出版社,2005.
2. 刘静,热流体消融技术,pp.255-265,<<现代肿瘤靶向治疗技术>>, 王洪武主编,北京:中国医药科技出版社,2005.
3. 刘静,兼有冷冻及高温热疗双效作用的肿瘤微创治疗方法,<<肿瘤微创治疗学>>, 王洪武主编,印刷中,2006.
4. Liu J, Bioheat Transfer Model, to be published in Wiley Encyclopedia of Biomedical Engineering, M. Akay, Ed., John Wiley & Sons, Inc., in press, 2006 (invited chapter).
二、Selected papers:
1. Yu T.-H., Liu J., Zhou Y.-X., Selective freezing of target biological tissues after injection of solutions with specific thermal properties, Cryobiology, vol.50, pp.174-182, 2005.
2. Deng Z.-S., Liu J., Numerical simulation of selective freezing of target biological tissues following injection of solutions with specific thermal properties, Cryobiology, vol.50, pp.183-192, 2005.
3. Gui L., and Liu J., Numerical study on a cooling strategy for a boiling-saline-based tumor hyperthermic injector, Heat Transfer Engineering, vol.26, pp.51-64, 2005.
4. Zhou J. H., Liu J., and Yu A. B., Study on the thawing process of biological tissue induced by laser irradiation, ASME Journal of Biomechanical Engineering, vol.127, pp.416-431, 2005.
5. Lv Y. G. and Liu J., Interpretation on thermal comfort mechanisms of human bodies by combining Hodgkin-Huxley neuron model and Pennes bioheat equation, Forschung im Ingenieurwesen-Engineering research, vol.69, pp.101-114, 2005.
6. Deng Z.-S. and Liu J., Numerical study on the effects of large blood vessels on three-dimensional tissue temperature profiles during cryosurgery, Numerical Heat Transfer, Part A: Applications, vol.49, pp. 47-67, 2006.
7. Deng Z.-S., Liu J., Enhancement of Thermal Diagnostics on Tumors Underneath the Skin by Induced Evaporation, 27th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBS), September 1-4, 2005.
8. Deng Z.-S., Liu J., Effect of Configuration Between Cryoprobe and Large Blood Vessels on the Tissue Freezing During Cryosurgery, 27th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBS), September 1-4, 2005.
9. Yan J. F., Liu J., Zhou Y.-X., Infrared image to evaluate the selective (directional) freezing due to localized injection of thermally important solutions, 27th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBS), September 1-4, 2005.
10. Lv Y.-G., Liu J., Capacity of Brain Cooling Via Ventilating Oxygen at Low Temperature Over Respiratory Tract, 27th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBS), September 1-4, 2005.
11. L. Gui, J. Liu, Study on the Heat and Fluid Transport inside the Biological Tissues Subject to Boiling Saline-Based Tumor Hyperthermic Injection, Heat Transfer Engineering, vol.26(9), pp.73-84, 2005.
12. 刘静,操纵微小世界的工具—微/纳米镊的研究与应用,微纳电子技术,vol.42, pp.97-106, pp.122, 2005.
13. 吕永钢,刘静, 生物体多尺度热学响应问题的研究与应用, 应用基础与工程科学学报, vol.13, pp.162-179.2005.
14. Z.-S. Deng, and J. Liu, Temperature nonuniformity during applying dynamics infrared thermography for tumor detection: impact of large vessels, 2005 ASME International Mechanical Engineering Congress and RD&D Expo, November 5-11, 2005, Orlando, Florida.
15. Z.-S. Deng, and J. Liu, Numerical evaluation on the heat dissipation capability of liquid metal based chip cooling device, 2005 ASME International Mechanical Engineering Congress and RD&D Expo, November 5-11, 2005, Orlando, Florida.
16. J. Liu, Y.-X. Zhou, Y.-G. Lv, and T. Li, Liquid metal based miniaturized chip-cooling device driven by electromagnetic pump, 2005 ASME International Mechanical Engineering Congress and RD&D Expo, November 5-11, 2005, Orlando, Florida.
17. Y.-G. Lv, Z.-S. Deng, and J. Liu, Study on the induced heating effects of embedded micro/nano particles on human body subject to external medical electromagnetic field, IEEE Transactions on NanoBioscience, vol.4, pp.284-294, 2005.
18. L. Gui, and J. Liu, Simulation of delivering oxygen directly to the target tissues by injection, International Journal of Thermal Sciences, in press, 2005.
19. L. Gui, and J. Liu, Animal test on infrared image guided percutaneous hot saline injection therapy, Minimally invasive therapy and allied technologies, vol.14, pp. 339-344, 2005.
20. X. P. Qu, J. Liu, Using electrical resistance to characterize the flow parameters of the solution in micro/nano fluidics channel, 微纳电子技术,in press, 2005.
21. 白晓丹,刘静,同位素燃料驱动型MEMS热电动力芯片的传热和能量转换效率问题研究,工程热物理学报,vol.25, pp.826-828, 2005.
22. Y. S. Duan, X. Gao, L. Gui, Z. S. Deng, J. Liu, Y. J. Huo, and S. K Gao, Simulation experiment on the effects of large blood vessels to the temperature profiles of tissues subject to laser-induced thermotherapy, Lasers in Medical Science, accepted for publication, 2005.
23. Y. G. Lv, and J. Liu, Effect of transient temperature on thermoreceptor response and thermal sensation, Building and Environment, in press, 2005.
24. J. Liu, Development of new generation miniaturized chip-cooling device using metal with low melting point or its alloy as the cooling fluid, Proceedings of the International Conference on Micro Energy Systems, pp.89-97, Sanya, China, Sep. 11-14, 2005.
25. Z. S. Deng, J.Liu, and H. W. Wang, Three dimensional computerized planning/evaluating of multi-probe cryosurgery for irregularly shaped tumor, The 2nd International Symposium on Thermal Science and Engineerin, Beijing, China, October 23-25, 2005.
26. Y. G. Lv, J. Liu, and J. Zhang, Theoretical evaluation on burn injury of human respiratory tract due to inhalation of hot gas at the early stage of fires, Burns, in press, 2005.
三、邀请报告:
1. 刘静, 微/纳米操作技术中的力学问题,北京,中国力学学会学术大会'2005,2005年8月.
2. 刘静, 突破低温医学技术瓶颈的基础与应用问题探析,北京,北京制冷学会,2005年12月.
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2004
一、学术著作:
刘静,SARS医学中的物理热学方法与应用,北京:科学出版社,2004.
二、Selected papers:
1. Deng Z.-S., and Liu J., Modeling of Multidimensional Freezing Problem During Cryosurgery by the Dual Reciprocity Boundary Element Method, Engineering Analysis with Boundary Elements, vol.28(2), pp.97-108, 2004.
(注:该文获第七届北京青年优秀科技论文二等奖)
2. Liu J., Zhou Y.-X., Yu T.-H., Gui L., Deng Z.-S., and Lv Y.-G., Minimally invasive probe system capable of performing both cryosurgery and hyperthermia treatment on target tumor in deep tissues, Minimally Invasive Therapy and Allied Technologies, vol.13, pp.47-57, 2004.
3. Lv Y.-G. and Liu J., Effect of dendritic cell structure on enhancing oxygen transport in neuron, Forschung im Ingenieurwesen-Engineering research, vol.68, pp.155-168, 2004.
4. Yu T.-H., Liu J., and Zhou Y.-X., Electrical impedance detection to evaluate the viability of biomaterials subject to freezing or thermal injury, Analytical and Bioanalytical Chemistry, vol.378, pp.1793-1800, 2004.
5. Zhou J.-H., and Liu J., Numerical study on 3-D light and heat transport in biological tissues embedded with large blood vessels during laser-induced thermotherapy, Numerical Heat Transfer, Part A: Applications, vol.45, pp.415-449, 2004.
6. Yu T.-H., Zhou Y.-X., Liu J., Development of a new mini-invasive tumour hyperthermia probe using high-temperature water vapour, Journal of Medical Engineering & Technology, vol.28, pp.167-177, 2004.
7. Yu T.-H., Liu J., Zhou Y.-X., Evidences of stress wave induced in frozen biomaterials by a strong and instantaneous heating, Journal of Thermal Stresses, vol.27, pp.1089-1100, 2004.
8. Liu J., A rate equation approach to model the denaturation or replication behavior of the SARS coronavirus, Forschung im Ingenieurwesen-Engineering research, vol.68, pp.227-238, 2004.
9. Deng Z.-S. and Liu J., Numerical Simulation on 3-D Freezing and Heating Problems for the Combined Cryosurgery and Hyperthermia Therapy, Numerical Heat Transfer, Part A: Applications, vol.46, pp.587-611, 2004.
10. Ji Y., and Liu J., New conceptual method for cooling the target biological tissues, Heat and Mass Transfer, in press, 2004.
11. 邓中山,刘静,肿瘤热疗计划中三维温度分布的不确定性研究,工程热物理学报, vol.25, pp.664-666, 2004.
12. 吕永钢,刘静,SARS病毒攻击肺泡组织的耗氧机理研究,工程热物理学报, vol.25, 2004 (in press).
13. Gui L., Liu J., Study on micro-fluidic ice valve array system, pp.242-246, The 6th International Symposium on Heat Transfer, Beijing, China, June 15-19, 2004.
14. Deng Z.-S., and Liu J., Three-dimensional simulation on rapid and uniform electromagnetic rewarming of cryopreserved tissues, pp.562-567, The 6th International Symposium on Heat Transfer, Beijing, China, June 15-19, 2004.
15. Deng Z-S., Liu J., Study of skin burns due to contact with cold mediums at extremely low temperature, ICEC Proceedings, June, Beijing, China.
16. Wu Z-L., Zhou Y-X., Li T., Liu J., Study on electricity generation performance of thermoelectric device in extreme environmental conditions, ICEC Proceedings, June, Beijing, China.
17. Yu L-N., Deng Z-S., Liu J., Zhou Y-X., A new method for uniformly cooling engineered tissues, ICEC Proceedings, June, Beijing, China.
18. Deng Z.-S. and Liu J., Monte Carlo Simulation of the Effects of Large Blood Vessels during Hyperthermia, International Symposium on Computational and Information Sciences, December 16 - 18, 2004, Shanghai, China. (Lecture Notes in Computer Science, vol.3314, pp.437-442, Springer-Verlag, 2004)
19. Deng Z.-S. and Liu J., Effects of large blood vessels on temperature distributions during simulated cryosurgery, 2004 ASME International Mechanical Engineering Congress and RD&D Expo, November 13-19, 2004, Anaheim, California. (ASME Heat Transfer Division, HTD, vol.375, no.1, 2004, pp.743-749)
20. Liu J., Analogy between heat and mass transfer leads to new oxygen transport equations in vascularized biological tissues, 2004 ASME International Mechanical Engineering Congress and RD&D Expo, November 13-19, 2004; Anaheim, California.
21. Gui L., Deng Z.-S., Liu J., Addition of cryoprotective agent into biological tissue through minimally invasive injection, CryoLetters, vol.25, pp.353-362, 2004.
22. 白晓丹,刘静, 微器件的热学加工技术研究与应用, 微纳电子技术,vol.41(5), pp.1-12, 2004.
23. 吕永钢,刘静, 基于肺泡组织耗氧机理研究SARS患者病程发展规律, 北京生物医学工程, Vol.23 (2), pp. 100-107, 2004.
24. 李腾, 刘静, 芯片冷却技术中的微/纳米材料与结构的研究进展, 微纳电子技术, vol.41(8), pp.21-27, pp.37, 2004.
25. 吕永钢,刘静, 基于肿瘤靶向热疗的磁性微/纳米颗粒研究进展,微纳电子技术, vol.41(9), pp.22-28, 2004.
26. 李腾, 刘静, 芯片冷却技术的最新研究进展及其评价, 制冷学报,vol.25(3), pp.22-32, 2004.
27. 邓中山,王洪武,刘静,氩氦刀冷冻手术中冻结与复温问题的数值模拟,航天医学与医学工程,vol.17(6), pp.448-451.
三、邀请报告:
1. 刘静,几类新型热学微系统技术的研究与应用,上海,上海理工大学,2004年2月;
2. 刘静,肿瘤冷热合并治疗方法中的基础与应用问题,合肥,中国科技大学,2004年6月;
3. 刘静,基于热学原理的微系统技术,合肥,合肥工业大学,2004年6月;
4. Liu J, Fundamental and practical issues in developing the combined cryosurgery and hyperthermia system for minimally invasive tumor treatment, Invited Lecture, Sino-USA Workshop and CAS Symposium on Biomedical Engineering(中-美生物医学工程学术研讨会), July, Beijing, China, 2004;
5. Liu J, Fundamental and practical issues in developing the combined cryosurgery and hyperthermia system for minimally invasive tumor treatment, Invited Keynote Speech, 2004 World Congress of Cryobiology and Cryomedicine (Annual Meeting of the Society for Cryobiology), July, Beijing, China, 2004;
6. 刘静,低温生物医学工程中的几项研究进展,大会报告,中国工程热物理学会传热传质年会,吉林,2004年9月.
7. 刘静, 低温微系统与测试技术,北京,华北电力大学,2004年10月.
8. 刘静, 高/低温外科手术中的血管传热效应,上海交通大学: 生物医学工程系,2004年12月.
9. 刘静,热学微系统技术研究与应用,北京:清华大学精密仪器系,2005年1月.
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2003
1. Deng Z. S. and Liu J., Non-Fourier heat conduction effect on temperature transients and thermal stress in skin cryopreservation, Journal of Thermal Stresses, Vol.26, pp.779-798, 2003.
2. Yu T. H., Zhou Y. X., and Liu J., Low-frequency electrical impedance of biological materials subject to freezing and its implementation in cryosurgical monitoring, International Journal of Thermophysics, Vol.24(2), pp.513-531, 2003.
3. Liu J., and Zhou Y. X., Freezing curve based monitoring to quickly evaluate the viability of biological materials subject to freezing or thermal injury, Analytical and Bioanalytical Chemistry, Vol.377, pp.173–181, 2003.
4. Ji Y., and Liu J., Vasculature based model for characterizing oxygen transport in skin tissues – analogy to the Weinbaum-Jiji bioheat equation, Heat and Mass Transfer, vol.40, pp.627-637, 2004. (published online, 2003)
5. 周一欣,刘静,一种低温生物实验用微型冷冻干燥仪及其初步应用,低温与特气,vol.21,pp.13-15,20, 2003.
6. Lv Y. G. and Liu J., A theoretical way of distinguishing the thermal and non-thermal effects in biological tissues subject to EM radiation, Forsch Ingenieurwes, vol.67(6), pp.242-253, 2003.
7. Deng Z. S., and Liu J., Mathematical modeling on temperature mapping over skin surface and its implementation in disease diagnostics, Computers in Biology and Medicine, vol.34, pp.495-521, 2004. (published online 2003)
8. L. Gui, and J. Liu, Ice valve for mini/micro flow channel, Journal of Micromechanics and Microengineering, vol.14, pp.242–246, 2004.
(注:该文所发明的纯电控型“微型冰阀”技术为美国著名技术媒体Technology Research News及MIT Technology Review报道;另外,据来自刊物的特别通告,该文在线发表后26天内被下载100次)
9. 邓中山,刘静,无损辨识动态内热源的Monte-Carlo方法,工程热物理学报, vol.24, no.1, pp.124-126, 2003.
10. 周一欣,刘静,借助显微镜用普通偶丝制作微细热电偶, 工程热物理学报, vol.24, no.2, pp.307-309, 2003.
11. 于天骅,王洪武,周一欣,刘静,冯华松,陆海英, Endocare型氩氦冷刀冻结与复温性能的研究, 航天医学与医学工程, vol.16, no.1, pp.60-63, 2003.
12. 刘静,非药物性物理方法战非典,《科学时报》2003年4月29日第3版.
13. 刘静,SARS病毒能活多久?《科学时报》2003年5月8日第4版.
14. 刘静,吕永钢,周一欣,周远,热氧灌注法缓解肺部SARS病毒侵害的可行性研究. 中国临床康复,2003, vol.7(12): 1745-1747.
15. 邓中山, 刘静, 隔离病房中SARS病人的热臃塞问题及其解决方法, 北京生物医学工程, vol.22(4), pp.248-252, 2003.
16. 桂林,刘静,经皮沸水注射疗法中的传热分析,航天医学与医学工程,vol.16(5), pp.336-339, 2003.
17. J. Liu, Y. X. Zhou, and T. H. Yu, Freeze tweezer to manipulate mini/micro objects, Journal of Micromechanics and Microengineering, vol.14, pp.269–276, 2004.
(注:该文发表后,美国著名技术媒体Technology Research News及MIT Technology Review以“微镊中有了冰镊 — Micro Tweezers Have Ice Grip”对文中所发明的“冻结微镊”技术进行了报道)
18. J. Liu, Y. X. Zhou, T. H. Yu, L. Gui, Z. S. Deng, and Y. G. Lv, New Cryoprobe system with powerful heating features and its performance tests on biomaterials, Proceedings of 2003 ASME IMECE: 2003 ASME International Mechanical Engineering Congress and RD&D Expo, 2003.
19. 吕永钢,刘静,基于肺泡组织耗氧机理研究SARS患者病程发展规律,北京生物医学工程,已接受,2003.
20. 吕永钢,刘静,感染性发热时三维脑组织热臃塞问题的理论研究,中国生物医学工程学报,在审,2003.
21. 李腾,刘静,用降维法推导微梁的热激振动方程,2003年中国工程热物理学会学术会议论文.
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2002
一、学术著作:
1. 刘静,微米/纳米尺度传热学,北京:科学出版社,ISBN 7-03-008890-5, 2003.4第3次印刷,(2002.1第2次印刷;2001.3第1版)
2. 周一欣,皮肤冷冻保存中的热物理基础,第5章,朱兆明 主编,皮肤冷冻储存, 北京:人民军医出版社,2002
二、Selected papers:
1. Liu J., Zhou Y. X., Deng Z. S., " Sinusoidal heating method to noninvasively measure tissue perfusion," IEEE Transactions on Biomedical Engineering, vol.49, pp.867-877, 2002.
2. Deng Z. S. and Liu J., “Analytical study on bioheat transfer problems with spatial or transient heating on skin surface or inside biological bodies,” ASME Journal of Biomechanical Engineering, vol.124, pp. 638-649, 2002.
3. Deng Z.S., and Liu J., " Monte Carlo Method to Solve Multi-Dimensional Bioheat Transfer Problem, " Numerical Heat Transfer, Part B: Fundamentals, vol.42, pp.543-567, 2002.
4. Zhang Y. T.,Liu J. and Zhou Y.-X., "Pilot study on phase change heat transfer in living tissues with large blood vessels," Forsch Ingenieurwes (Engineering Research), vol.67, pp.188-197, 2002.
5. Ji Y. and Liu J., "Numerical study on the effect of lowering temperature on the oxygen transport during brain hypothermia resuscitation," Computers in Biology and Medicine, Volume 32, pp.495-514, 2002.
6. Zhang Y. T. and Liu J., "Numerical study on three-regions thawing problem during cryosurgical rewarming," Medical Engineering & Physics, vol.24, pp.265-277, 2002.
7. Liu J., Zhou Y-X, "Analytical study on the freezing and thawing process of biological skin with finite thickness," Heat and Mass Transfer, vol.38, pp.319-326, 2002.
8. Li H. J., Zhang X.X., and Liu J., " Heat transfer analysis on laser-tissue thermal interaction using heterogeneous model", Chinese Journal of Lasers, vol.B11, pp.233-238, 2002.
9.周一欣,朱兆明,纪晓峰,刘静,莫海龙, "深低温保存皮肤的一种快速冷却方法",低温工程,No.1, pp.19-25,2002.
10.张艳婷, 刘静,"低温外科复温过程中的热应力研究," 航天医学与医学工程,vol.15, pp.291-295, 2002.
11.吕永钢,刘静,“基于Boltzmann方程的传质理论,”中国工程热物理学会传热传质学第十一届学术年会,上海,2002.10.
12.周建华,刘静,“生物组织内含大血管时激光传输和热传递的数值模拟,”中国工程热物理学会传热传质学第十一届学术年会,上海,2002.10.
13.桂林,刘静,“注沸水型肿瘤热疗问题的传热模型,”中国工程热物理学会传热传质学第十一届学术年会,上海,2002.10.
14.邓中山,刘静,“无损辨识动态内热源的Monte-Carlo方法,”中国工程热物理学会传热传质学第十一届学术年会,上海,2002.10. (也见《工程热物理学报》 vol.24, no.1, pp.124-126, 2003)
15. 周一欣,刘静,“借助显微镜用普通偶丝制作微细热电偶, ” 中国工程热物理学会传热传质学第十一届学术年会,上海,2002.10. (也见《工程热物理学报》 vol.24, no.2, pp.307-309, 2003)
16. 李和杰,张学学,柯江华,刘静,“无损检测血液灌注率的常热流方法”,清华大学学报,vol.42, pp.1354-1357,2002.
17. 李和杰,刘静,张学学,“激光汽化活体生物组织的传热过程分析”,航天医学与医学工程,vol.15, pp.103-107,2002.
三、邀请讲座
1. 刘静,“氩-氦刀靶向治疗肿瘤技术中的基础相变传热问题研究与应用,”全国首届氩-氦刀应用技术研讨会大会邀请报告,2002年3月,北京.
2. 刘静,“温度与生命,”中央电视台教育频道(CCTV-10)《百家讲坛》栏目,2002年10月,北京. (全文链接)
3. 刘静,“微米/纳米尺度热科学与工程学中的若干基础研究与应用系列,”合肥工业大学,2002年10月,合肥.
4.刘静,“低温生物医学技术中的若干基础问题研究与应用,”中国科技大学,2002年10月,合肥.
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2001
1. 刘静,微米/纳米尺度传热学,北京:科学出版社,2001.
2. Liu J., Uncertainty analysis for temperature prediction of biological bodies subject to randomly spatial heating, Journal of Biomechanics, vol. 34, pp.1637-1642, 2001.
3. Deng Z. S., Liu J., Blood perfusion based model for characterizing the temperature fluctuation in living tissues, Physica A: Statistical Mechanics and Its Applications, vol.300, pp. 521-530, 2001.
4. Liu J. and Zhou Y. X., Freezing curve based monitoring to quickly evaluate the viability of the biological materials subject to freezing and rewarming, 2001 Proceedings of the 23rd Annual EMBS International Conference, pp.3308-3310, Istanbul, Turkey, Oct.21-25, 2001.
5. Liu J., Zhou Y. X., and Deng Z. S., Temperature sensor array system for thermal diagnostics on human disease, 2001 Proceedings of the 23rd Annual EMBS International Conference, pp.3188-3191, Istanbul, Turkey, Oct.21-25, 2001.
6. Ji Y. and Liu J., Preliminary study on the oxygen consumption dynamics during brain hypothermia resuscitation, 2001 Proceedings of the 23rd Annual EMBS International Conference, pp.266-269, Oct.21-25, Istanbul, Turkey.
7. 邓中山,刘静,低温外科手术中多维相变问题的双倒易边界元模拟, 上海理工大学学报, vol.23, pp.217-220, 224, 2001.
8. 姬妍,刘静, 循环骤停中脑组织热臃塞现象的数值模拟,自然科学进展,vol.11,pp.853-859, 2001.
9. 张艳婷,刘静, 考虑血液灌注温度依赖特性的相变生物传热分析,航天医学与医学工程,vol.14, pp.182-186, 2001.
10. 张艳婷,刘静,Weinbaum-Jiji生物传热方程在低温外科手术中的应用问题研究,北京生物医学工程,vol.20, pp.129-134, 2001.
11. 刘静, 微米/纳米尺度热科学与工程学中的若干重要问题及进展, 物理,vol.30, pp.398-406, 2001.
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2000
1. Liu J., Zhu L., Xu L. X., Studies on the 3-D temperature transients in the canine prostate during transurethral microwave thermal therapy, ASME Journal of Biomechanical Engineering, vol.122, pp.372-379, 2000.
2. Liu J., Xu L. X., Boundary information based diagnostics on the thermal states of biological bodies, International Journal of Heat and Mass Transfer, vol.43, pp.2827-2839, 2000.
3. Liu J., Temperature monitoring and heating optimization in cancer hyperthermia, Progress in Natural Science, vol.10, pp.787-793, 2000.
4. Deng Z.S., Liu J., Parametric studies on the phase shift method to measure the blood perfusion of biological bodies, Medical Engineering & Physics, vol.22, pp.693-702, 2000.
5. Liu J., Preliminary survey on the mechanisms of the wave-like behaviors of heat transfer in living tissues, Forschung im Ingenieurwesen-Engineering Research, vol.66, pp.1-10, 2000.
6. Liu J., Xu L. X., Computational study on the 3-D heat and species transport in an infant incubator, Heat Transfer Science and Technology--Fifth International Symposium on Heat Transfer, Aug.12-16, Beijing: Higher Education Press, pp. 819-825, 2000.
7. Zhu L., Liu J., and Xu L. X., Studies on the 3-D temperature transients in the canine prostate during transurethral microwave thermal therapy, Proceedings of NHTC'00, 34th National heat transfer conference, Pittsburgh, Pennsylvania, Aug.20-22, pp.1-8, 2000.
8. 刘静, 充满机遇的微尺度生物传热传质学, 世界科技研究与发展,vol.22, pp.54-58, 2000. (邀请稿)
9. 刘静, 超声及磁共振成像法引导的低温外科手术, 仪器仪表学报, vol.21, 增刊,pp.84-87, 2000.
10. 周一欣, 刘静, 邓中山, 张艳婷, 用于人体组织病变诊断的动态热图成像系统, 仪器仪表学报, vol.21, 增刊,pp.61-67, 2000.
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1999
1. Liu J. and Xu L. X., Estimation of blood perfusion using phase shift in temperature response to the sinusoidal heating at the skin surface, IEEE Transactions on Biomedical Engineering, vol.46, pp.1037-1043, 1999.
2. Liu J., Chen X., Xu L. X., New thermal wave aspects on burn evaluation of skin subjected to instantaneous heating, IEEE Transactions on Biomedical Engineering, vol.46, pp.420-428, 1999.
