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教授 - 刘向雷
姓名: 刘向雷 性别
学位与职务: 博士 现任职务: 教师
硕导/博导: 出生年月: 1989.1
学术经历:
2016.06—至今 南京航空航天大学
2011.08—2016.05 美国佐治亚理工学院(Georgia Institute of Technology),机械工程系,获博士学位
2007.08—2011.07 西安交通大学,能源与动力工程学院,获学士学位
从事学科与研究方向:
主要从事航空航天器热管理、辐射换热、光热光电转换以及太阳能推进技术等方面的研究,所做研究可为航空航天器热管理、微纳电子器件散热、太阳能高效利用、智能节能、深空推进等技术的发展提供支撑。
主要研究方向有:
(1)微纳尺度传热原理与应用(Micro/nanoscale heat transfer and applications);
(2)辐射制冷与智能节能技术(Radiation cooling and energy-saving);
(3)高效太阳能综合利用以及热推进技术(Solar energy harvesting and solar thermal propulsion);
(4)航空发动机火焰筒与叶片冷却技术(Cooling techniques of flame tube and turbine blades);
学术兼职:
16th international heat transfer conference 副主编
美国机械工程师协会(ASME)会员,美国航空航天协会(AIAA)会员,美国物理协会(APS)会员,美国光学协会(OSA)会员、中国航空学会会员。
Physical Review B、Scientific Reports、 International Journal of Heat and Mass Transfer、Optics Letters、Optics Express、Journal of Quantitative Spectroscopy and Radiative Transfer、International Journal of Thermophysics and Heat Transfer、Journal of Applied Physics、Heat Transfer Engineering等10余家国际著名期刊的审稿专家。
国家自然科学基金通讯评议专家
荣誉称号:
爱思唯尔/雷蒙德·维斯坎塔青年科学家奖(全球热辐射领域每年1-2人)
南京航空航天大学首批“长空学者”
2017年度佐治亚理工学院最佳博士论文(Top 2%)
2015年度国家优秀自费留学生奖学金(全球500名)
2012和2013连续获得国际机械工程师大会(ASME IMECE)旅费奖
教学与科研情况:
主持军委科技委国防科技创新项目、国家自然科学基金青年基金、教育部重点实验室基金、南京航空航天大学杰出人才培育基金,参与承担国家自然科学基金重大项目、美国能源部项目、美国自然科学基金委项目等多项,近五年在工程热物理以及能源利用领域的国际著名期刊如Nano Energy、Applied Physics Letters、Physical Review A、 International Journal of Heat and Mass Transfer等上发表SCI学术期刊论文30篇,其中第一作者19篇,单篇最高影响因子12.3,文章被国内外知名学者引用450余次(https://scholar.google.com.hk/citations?user=RxW3otEAAAAJ&hl=en),合作出版英文专著一本。担任国际会议China-UK Workshop on Efficient Energy Utilization大会秘书长,担任国际会议First Asian Conference on Thermal Sciences分会主席,Third International Workshop on Nano-Micro Thermal Radiation分会主席,受邀在中国工程热物理学会传热传质学术会议上作特邀主题报告1次,在6th International Conference on Metamaterials, Photonic Crystals and Plasmonics国际会议作特邀报告1次,研究工作曾被SPIE news专题报道(DOI: 10.1117/2.1201502.005803)。

近五年代表性SCI论文(按照时间倒序)主要有:
19. Liu, X.L., and Xuan, Y.M., 2017, “Full-spectrum volumertric solar thermal conversion via photonic nanofluids,” Nanoscale,9, 14854.入选期刊内封面
18. Liu, X.L., Shen, J.D., and Xuan, Y.M., 2017, “Pattern-free thermal modulator via thermal radiation between Van der Waals materials,” Journal of Quantitative Spectroscopy and Radiative Transfer,200,100-107.
17. Liu, X.L., and Xuan, Y.M., 2017, “Defects-assisted solar absorption of plasmonic nanoshell-based nanofluids,” Solar Energy,146,503-510.
16. Liu, X.L., and Xuan, Y.M., 2016, “Super-Planckian Thermal Radiation Enabled by Hyperbolic Surface Phonon Polaritons,” Science China-Technological Sciences 59 (11),1680-1686.入选期刊封面
15. Liu, X.L., and Zhang, Z.M., 2016, “High-Performance Electroluminescent Refrigeration Enabled by Photon Tunneling,” Nano Energy 26, 353-359.
14. Liu, X.L., and Zhang, Z.M., 2016, “Tunable Stable Levitation based on Casimir Interaction between Nanostructures,” Physical Review Applied, 5(3), 034004.
13. Liu, X.L., and Zhang, Z.M., 2015, “Giant Enhancement of Nanoscale Thermal Radiation Based on Hyperbolic Graphene Plasmons,” Applied Physics Letters, 107 (14), p. 143114.
12. Liu, X.L., and Zhang, Z.M., 2015, “Near-Field Thermal Radiation between Metasurfaces,” ACS Photonics 2 (9), pp. 1320-1326.
11. Liu, X.L., Zhao, B., and Zhang, Z.M., 2015, “Enhanced Near-Field Thermal Radiation and Reduced Casimir Stiction between Doped-Si Gratings,” Physical Review A 91 (6), p. 062510.
10. Liu, X.L., Wang, L.P., and Zhang, Z.M., 2015, “Near-Field Thermal Radiation: Recent Progress and Outlook,” Nanoscale and Microscale Thermophysical Engineering 19 (2), pp. 98-126. Invited.
9. Liu, X.L., Zhao, B., and Zhang, Z.M., 2015, “Blocking-Assisted Infrared Transmission of Subwavelength Metallic Gratings by Graphene,” Journal of Optics 17, p. 035004.
8. Liu, X.L., and Zhang, Z.M., 2014, “Graphene-Assisted Near-Field Radiative Heat Transfer between Corrugated Polar Materials,” Applied Physics Letters 104 (25), p. 251911.
7. Liu, X.L., Zhang, Z.R., and Zhang, Z.M., 2014, “Near-Perfect Photon Tunneling by Hybridizing Graphene Plasmons and Hyperbolic Modes,” ACS Photonics 1, pp. 785-789.
6. Liu, X.L., Bright, TJ., and Zhang, Z.M., 2014, “Application Conditions of Effective Medium Theory in Near-Field Radiative Heat Transfer between Multilayered Metamaterials,” Journal of Heat Transfer 136(9), p. 092703.
5. Liu, X.L., Zhang, Z.R., and Zhang, Z.M., 2014, “Near-field Radiative Heat Transfer with Doped-Silicon Nanostructured Metamaterials,” International Journal of Heat and Mass Transfer 73, pp. 389-398.
4. Liu, X.L., Zhang, Z.R., and Zhang, Z.M., 2013, “Near-Field Thermal Radiation between Hyperbolic Metamaterials: Graphite and Carbon Nanotubes,” Applied Physics Letters 103 (21), p. 213102.
3. Liu, X.L., and Zhang, Z.M., 2013, “Metal-Free Low-Loss Negative Refraction in the Mid-Infrared Region,” Applied Physics Letters 103 (10), p. 103101.
2. Liu, X.L., Zhao, B., and Zhang, Z.M., 2013, “Wide-angle Near Infrared Polarizer with Extremely High Extinction Ratio,” Optics Express, 21 (9), pp. 10502-10510.
1. Liu, X.L., Wang, L.P., and Zhang, Z.M., 2013, “Wideband Tunable Omnidirectional Infrared Absorbers Based on Doped-Silicon Nanowire Arrays,” Journal of Heat Transfer 135(6), p. 061602. Invited.

研究小组与美国、法国、德国、土耳其、韩国以及国内多家著名大学和机构有广泛的合作与交流,博士研究生有去国外联合培养的机会,诚邀具有能源与动力工程、飞行器动力工程、材料、光学等学科基础的同学加入微纳尺度传热课题组!也欢迎优秀本科生来实验室进行科研学习!
学术型报名学科:工程热物理
专业型硕士报名学科:不限制
联系方式:xliu@nuaa.edu.cn
电话:15895871305