姓名：邱琳
热科学与能源工程系
副教授
办公地点：
机电楼915
办公电话：

Email：
qiulin@ustb.edu.cn
学术团队：
多尺度与能源材料热特性
实验室：
纳米传热实验室

邱琳热科学与能源工程系

学习工作简历：
2003年-2007年，北京科技大学，学士
2007年-2012年，中国科学院工程热物理研究所，博士
2012年-2016年，中国科学院工程热物理研究所，助理研究员
2015年-2016年，美国弗吉尼亚大学机械与航空航天工程系，博士后（国家公派）
2015年-2016年，北京科技大学热能工程系，特聘副教授
2016年至今，北京科技大学能源与环境工程学院，副教授
研究领域：
1. 微纳尺度热物性测量及热输运机理（谐波法(3ω)热物性测量技术、Raman技术、AFM技术、基于纳米碳材料的热管理技术）
2. 钢铁行业余热回收及利用（高温颗粒群流动与传热耦合的数值模拟技术）
研究生培养：
已毕业国内硕士生2位，其中，1名获得研究生国家奖学金，一名毕业研究生获得北京市优秀毕业生。
本科生课程：
1. 热工学
2. Fundamentals of Thermal Engineering
研究生课程：
1. 材料热物性及导热分析
社会兼职：
2019年至2020年，“Journal of Thermal Science” 青年客座编辑
2019年至今，第7届国际微纳技术会议（ISMNT-7）学术委员会委员
2018年至今，北京热物理与能源工程学会青年工作委员会委员
2017年至今，中国高等教育学会工程热物理专业委员会理事
2016年至今，天合科技成果市场转化成熟度评价系统（T-CAM）评价师
2015年至今，“Scientific Reports” (Nature Publishing Group) 编委会委员
2014年至今，国家自然科学基金(NSFC)面上、青年项目函评专家
2012年至今，Applied Thermal Engineering (IF=3.929), Carbon (IF=7.088), Energy & Buildings (IF=4.779), European Physical Journal-Applied Physics (IF=0.726), International Journal of Energy Research (IF=2.671), International Journal of Heat and Mass Transfer (IF=3.891), International Journal of Thermal Sciences (IF=3.707), International Journal of Thermophysics (IF=0.941), Journal of Applied Polymer Science (IF=2.188), Journal of Physics D: Applied Physics (IF=2.707), Journal of Thermal Analysis and Calorimetry (IF=2.209), Materials Research Express (IF=1.220), Measurement (IF=2.218), Measurement Science & Technology (IF=1.735), Modern Physics Letters B (IF=0.628), Open Physics (IF=0.820), Physica B: Condensed Matter (IF=1.374), Physics of Fluids (IF=2.840), PLoS One (IF=3.352), Polymer Testing (IF=2.628), Powder Technology (IF=3.413), Renewable Energy (IF=5.439), Scientific Reports (IF=4.609), Semiconductor Science and Technology (IF=2.340), Smart Materials and Structures (IF=3.543), Surface and Coatings Technology (IF=2.923), Nano Energy (IF=13.619), Nanotechnology (IF=3.467)等27个国际期刊审稿人
代表性论文及著作：
著作/教材：
1.《Phase Change Materials: Characteristics, Industrial Applications and Energy Implications》，“Chapter 4: Heat Conduction and Heat Storage Characterizations of Phase-Change Microcapsules.”, Nova Science Publisher,2015（参编）
2.《热能调控微纳结构材料》，“第2章: 微纳结构材料的热物理性能表征.”，科学出版社，2014（参编）


代表性论文：
2020
1. Lin Qiu, Ning Zhu, Yanhui Feng*, Efstathios E. Michaelides, Gawe? ?y?a, Dengwei Jing, Xinxin Zhang, Pamela M. Norris, Christos N. Markides, Omid Mahian*. A review of recent advances in thermophysical properties at the nanoscale: From solid state to colloids. Physics Reports, 2020, doi: 10.1016/j.physrep.2019.12.001
2. Jin Wu*, Zixuan Wu, Haojun Ding, Yaoming Wei, Wenxi Huang, Xing Yang, Zhenyi Li, Lin Qiu*, Xiaotian Wang*. Three-dimensional graphene hydrogel decorated with SnO2 for high-performance NO2 sensing with enhanced immunity to humidity[J]. ACS Applied Materials & Interfaces, 2020, doi: 10.1021/acsami.9b18098.


2019
3. L Qiu, Y Li, Y Feng*, Z Chen, X Zhang， Three-dimensional fluid-solid coupling heat transfer simulation based on the multireference frame for a side-blown aluminum annealing furnace[J]. Engineering Applications of Computational Fluid Mechanics, 2019, 13(1): 1036-1048.
4. L Qiu, Y Ouyang, Y Feng*, X Zhang， Review on micro/nano phase change materials for solar thermal applications[J]. Renewable energy, 2019, 140: 513-538.
5. L Qiu, P Guo, QKong, C Tan, K Liang, J Wei, J Tey, Y Feng*, X Zhang, Beng Kang Tay*，Coating-boosted interfacial thermal transport for carbon nanotube array nano-thermal interface materials[J]. Carbon, 2019, 145: 725-733.
6. L Qiu, P Guo, X Yang, Y Ouyang, Y Feng*, X Zhang, J Zhao, XZhang*, Q Li， Electro curing of oriented bismaleimide between aligned carbon nanotubes for high mechanical and thermal performances[J]. Carbon, 2019, 145: 650-657.
7. L Qiu, H Zou, X Wang, Y Feng*, X Zhang, J Zhao, X Zhang*, Q Li， Enhancing the interfacial interaction of carbon nanotubes fibers by Au nanoparticles with improved performance of the electrical and thermal conductivity[J]. Carbon, 2019, 141: 497-505.
8. Y Feng*, Z Zhang, L Qiu*, X Zhang, Heat recovery process modelling of semi-molten blast furnace slag in a moving bed using XDEM[J]. Energy, 2019, 186: 115876.
9. J Wu*, Z Wu, H Ding, X Yang, Y Wei, M Xiao, Z Yang, B Yang, C Liu, X Lu, L Qiu*, X Wang*, Three-Dimensional-Structured Boron-and Nitrogen-Doped Graphene Hydrogel Enabling High-Sensitivity NO2 Detection at Room Temperature[J]. ACS sensors, 2019, 4(7): 1889-1898.
10. Jin Wu*, Zixuan Wu, Haojun Ding, Yaoming Wei, Xing Yang, Zhenyi Li, Boru Yang, Chuan Liu, Lin Qiu*, Xiaotian Wang*. Multifunctional and high-sensitive sensor capable of detecting humidity, temperature, and flow stimuli using an integrated microheater[J]. ACS Applied Materials & Interfaces, 2019, 11(46): 43383-43392.
11. Jin Wu*, Zixuan Wu, Haojun Ding, Yaoming Wei, Wenxi Huang, Xing Yang, Zhenyi Li, Lin Qiu*, Xiaotian Wang*. Flexible, 3D SnS2/reduced graphene oxide heterostructured NO2 sensor. Sensors and Actuators B: Chemical, 2020, 305: 127445.
12. D Feng, Y Feng*, L Qiu, P Li, Y Zang, H Zou, Z Yu, X Zhang, Review on nanoporous composite phase change materials: Fabrication, characterization, enhancement and molecular simulation[J]. Renewable and Sustainable Energy Reviews, 2019, 109: 578-605.
13. Y Feng*, H Zou, L Qiu*, X Zhang, Size effect on the thermal conductivity of octadecanoic acid: A molecular dynamics study[J]. Computational Materials Science, 2019, 158: 14-19.
14. 邱琳, 李艳丽, 冯妍卉, 张欣欣. 多粒径高炉渣在移动床内余热回收的数值模拟[J] . 工程热物理学报, 2019, 40(10): 2407-2414.
15. 邱琳, 郭璞, 冯妍卉, 张欣欣.纳米涂层增强碳纳米管阵列界面热输运[J].工程热物理学报, 2019, 40(9): 2109-2114.
16. 邱琳, 桑大伟, 冯妍卉, 龚亦辉, 张欣欣. 高炉熔渣流化床余热回收的优化分析[J]. 工程热物理学报, 2019, 40(5): 1086-1094.


2018
17. L Qiu, P Guo, H Zou, Y Feng*, X Zhang, S Pervaiz, D Wen, Extremely low thermal conductivity of graphene nanoplatelets using nanoparticle decoration[J]. ES Energy & Environment, 2018, 2: 66-72.
18. L Qiu, Y Feng*, Z Chen, Y Li, X Zhang, Numerical simulation and optimization of the melting process for the regenerative aluminum melting furnace[J]. Applied Thermal Engineering, 2018, 145: 315-327.
19. L Qiu, N Zhu, H Zou, Y Feng*, X Zhang, D Tang*, Advances in thermal transport properties at nanoscale in China, International Journal of Heat and Mass Transfer, 2018, 125: 413-433.
20. L Qiu, Y Ouyang, Y Feng*, X Zhang, Note: Thermal conductivity measurement of individual porous polyimide fibers using a modified wire-shape 3ω method[J]. Review of Scientific Instruments, 2018, 89(9): 096112.
21. L Qiu, H Zou, N Zhu, Y Feng*, X Zhang, X Zhang, Iodine nanoparticle-enhancing electrical and thermal transport for carbon nanotube fibers[J]. Applied Thermal Engineering, 2018, 141: 913-920.
22. L Qiu, H Zou, D Tang, D Wen, Y Feng*, X Zhang, Inhomogeneity in pore size appreciably lowering thermal conductivity for porous thermal insulators[J]. Applied Thermal Engineering, 2018, 130: 1004-1011.
23. Q Kong, L Qiu*, Y Lim, C Tan, K Liang, C Lu, B Tay*, Thermal conductivity characterization of three dimensional carbon nanotube network using freestanding sensor-based 3ω technique[J]. Surface and Coatings Technology, 2018, 345: 105-112.
24. J Zhang, G Song, L Qiu, Y Feng, J Chen, J Yan, L Liu, X Huang, Y Cui, Y Sun, W Xu*, D Zhu*, Highly conducting polythiophene thin films with less ordered microstructure displaying excellent thermoelectric performance[J]. Macromolecular Rapid Communications, 2018, 39(16): **.
25. 邱琳, 桑大伟, 冯妍卉, 杨安, 张欣欣. 漏斗形移动床内颗粒运动特性分析[J]. 工程热物理学报, 2018, 39(12): 2708-2713.
26. 邱琳, 郭璞, 邹瀚影, 冯妍卉, 张欣欣, 张骁骅, 赵静娜, 李清文. 碳纳米管纤维的界面设计及热/电输运调控[J]. 工程热物理学报, 2018, 39(6): 1344-1348.


2017
27. L Qiu, K Scheider, S Radwan, L Larkin, C Saltonstall, Y Feng*, X Zhang, P Norris*, Thermal transport barrier in carbon nanotube array nano-thermal interface materials[J]. Carbon, 2017, 120: 128-136.
28. Q Pham, L Larkin, C Lisboa, C Saltonstall, L Qiu*, J Schuler, T Rupert, P Norris, Effect of growth temperature on the synthesis of carbon nanotube arrays and amorphous carbon for thermal applications[J]. physica status solidi (a), 2017, 214(7): **.
29. 邱琳, S Kimberly, R Suhaib, L LeighAnn, S Christopher, 冯妍卉, 张欣欣, N Pamela. 面向热界面应用的多壁碳纳米管阵列生长优化[J]. 工程热物理学报, 2017, 38(6): 1323-1326.


2016
30. L Qiu, X Wang, D Tang*, X Zheng*, P Norris, D Wen, J Zhao, X Zhang, Q Li, Functionalization and densification of inter-bundle interfaces for improvement in electrical and thermal transport of carbon nanotube fibers[J]. Carbon, 2016, 105: 248-259.
31. L Qiu, X Wang, G Su, D Tang*, X Zheng*, J Zhu, Z Wang, P Norris, P Bradford, Y Zhu, Remarkably enhanced thermal transport based on a flexible horizontally-aligned carbon nanotube array film[J]. Scientific reports, 2016, 6: 21014.
32. X Zheng, L Qiu*, P Yue, G Wang, D Tang, 3ω slope comparative method for fluid and powder thermal conductivity measurements[J]. Modern Physics Letters B, 2016, 30(25): **.
33. Y Sun, L Qiu, L Tang, H Geng, H Wang, F Zhang, D Huang, W Xu*, P Yue, Y Guan, F Jiao, Y Sun, D Tang, C Di, Y Yi*, D Zhu*, Flexible n‐Type High‐Performance Thermoelectric Thin Films of Poly (nickel‐ethylenetetrathiolate) Prepared by an Electrochemical Method[J]. Advanced materials, 2016, 28(17): 3351-3358.
34. 曹运涛, 邱琳, 郑兴华, 唐大伟, 朱群志, 裴振洪. 3ω微型探测器用于固体材料热导率的测量[J]. 工程热物理学报, 2016, 37(4): 803-806.


2015
35. L Qiu, X Zheng*, J Zhu, D Tang, S Yang, A Hu, L Wang, S Li. Thermal transport in high-strength polymethacrylimide (PMI) foam insulations[J]. International Journal of Thermophysics, 2015, 36(10-11): 2523-2534.
36. L Qiu, X Zheng*, P Yue, J Zhu, D Tang*, Y Dong, Y Peng, Adaptable thermal conductivity characterization of microporous membranes based on freestanding sensor-based 3ω technique[J]. International Journal of Thermal Sciences, 2015, 89: 185-192.
37. P Han, X Zheng*, W Hou, L Qiu*, D Tang,Study on heat-storage and release characteristics of multi-cavity-structured phase-change microcapsules[J]. Phase Transitions, 2015, 88(7): 704-715.
38. 邱琳, 郑兴华, 岳鹏, 唐大伟, 曹丽莉, 邓元. 碲化铋取向纳米柱状薄膜热导率测量[J]. 工程热物理学报, 2015, 36(4): 816-819.


2014
39. L Qiu, Y Li, X Zheng*, J Zhu, D Tang, J Wu, C Xu, Thermal-conductivity studies of macro-porous polymer-derived SiOC ceramics[J]. International Journal of Thermophysics, 2014, 35(1): 76-89.
40. G Su, L Qiu*, X Zheng*, Z Xiao, D Tang, Effective Thermal-Conductivity Measurement on Germanate Glass–Ceramics Employing the 3ω Method at High Temperature[J]. International Journal of Thermophysics, 2014, 35(2): 336-345.
41. M Liu, L Qiu*, X Zheng*, J Zhu, D Tang, Study on the thermal resistance in secondary particles chain of silica aerogel by molecular dynamics simulation[J]. Journal of Applied Physics, 2014, 116(9): 093503.
42. Z Li*, Y Peng*, Y Dong, H Fan, P Chen, L Qiu, Q Jiang, Effects of thermal efficiency in DCMD and the preparation of membranes with low thermal conductivity[J]. Applied Surface Science, 2014, 317: 338-349.
43. P Yue, L Qiu*, X Zheng, D Tang, The Effective Thermal Conductivity of Porous Polymethacrylimide Foams[C]. Key Engineering Materials. Trans Tech Publications, 2014, 609: 196-200.


2013
44. L Qiu, X Zheng, G Su, D Tang*, Design and application of a freestanding sensor based on 3ω technique for thermal-conductivity measurement of solids, liquids, and nanopowders[J]. International Journal of Thermophysics, 2013, 34(12): 2261-2275.
45. L Qiu, XZheng*, J Zhu, G Su, D Tang, The effect of grain size on the lattice thermal conductivity of an individual polyacrylonitrile-based carbon fiber[J]. Carbon, 2013, 51: 265-273.
46. G Su, X Zheng*, L Qiu, D Tang*, J Zhu, Measurement of thermal conductivity of anisotropic SiC crystal[J]. International Journal of Thermophysics, 2013, 34(12): 2334-2342.
47. G Zhao*, X Xu, L Qiu, X Zheng, D Tang, Study on the heat conduction of phase-change material microcapsules[J]. Journal of Thermal Science, 2013, 22(3): 257-260.
48. W Chen, L Qiu*, S Liang*, X Zheng, D Tang, Measurement of thermal conductivities of DMP/CH3OH and DMP/H2O by freestanding sensor-based 3ω technique[J]. Thermochimica acta, 2013, 560: 1-6.
49. 郑兴华, 邱琳, 李兰兰, 岳鹏, 王刚, 唐大伟. 相变微胶囊的吸热系数测量[J]. 工程热物理学报, 2013, 34(9): 1692-1694.


2012
50. 郑兴华, 邱琳, 祝捷, 苏国萍, 唐大伟. 相变微胶囊的热导率测量[J]. 工程热物理学报, 2012, 33(3): 454-456.


2011
51. L Qiu, X Zheng, J Zhu, D Tang, Note: Non-destructive measurement of thermal effusivity of a solid and liquid using a freestanding serpentine sensor-based 3ω technique[J]. Review of Scientific Instruments, 2011, 82(8): 086110.
52. L Qiu, D Tang*, X Zheng, G Su, The freestanding sensor-based 3ω technique for measuring thermal conductivity of solids: principle and examination[J]. Review of Scientific Instruments, 2011, 82(4): 045106.
53. X Zheng*, L Qiu, G Su, D Tang, Y Liao, Y Chen, Thermal conductivity and thermal diffusivity of SiO2 nanopowder[J]. Journal of Nanoparticle Research, 2011, 13(12): 6887-6893.
54. 邱琳, 郑兴华, 苏国萍, 唐大伟. 具有独立探头的3ω技术测量固体热导率[J]. 工程热物理学报, 2011, 32(4): 621-624.
55. 郑兴华, 邱琳, 苏国萍, 唐大伟. 利用3ω法测量纳米SiO2粉末热导率及热扩散率[J]. 工程热物理学报, 2011, 32(S1): 190-193.
56. 苏国萍, 唐大伟, 郑兴华, 邱琳, 杜景龙. 3ω方法测量各向异性SiC晶体的导热系数[J]. 工程热物理学报, 2011, 32(11): 1885-1888.


2010
57. 邱琳, 郑兴华, 李谦, 唐大伟, 钱杨保, 张伟刚. 陶瓷热障涂层的热导率和热扩散率测量[J]. 功能材料, 2010, 41(S2): 264-267.
专利、获奖、鉴定
专利：
发明专利：
1. 节能隔热材料热导率现场精确测试的装置及方法，ZL 5.7
2. 制备高纯度高导热碳纳米管阵列热界面材料的方法及装置，ZL 3.8
3. 抗重力型螺旋盘管式非相变取热装置，ZL 5.5
4. 双螺旋平面结构谐波法测试材料热物性参数的装置，ZL 6.1
5. 测试材料热物性参数的装置及方法，ZL 3.3
6. 测量固体热物性参数的光学系统及方法，ZL 7.5
7. 用于吸热系数测量的测量装置及测量方法，ZL 6.2
8. 用于各向异性材料导热系数和热扩散率的测定方法，ZL 6.7
9. 基于独立型传感器的谐波法测量材料蓄热系数装置及方法，ZL 9.X
10. 谐波法单根导电丝状材料热物性测试方法及装置，ZL 5.9
11. 谐波法微/纳米薄膜热物性测试方法，ZL 0.1
12. 具有独立探头的谐波法固体材料热物性测试方法及装置，ZL 2.0


实用新型专利：
1. 一种材料三维各向异性热导率无损测量装置，ZL .7
2. 一种高纯度高导热碳纳米管阵列热界面材料制备装置ZL 4.7
3. 抗重力型螺旋盘管式非相变取热装置，ZL 5.7
4. 贴面式传感器及吸热系数测量装置，ZL 1.1
5. 具有独立探头的谐波法固体材料热物性测试装置，ZL 0.9
科研项目：
1. 北京科技大学青年教师学科交叉研究培育项目“超高导热金刚石/石墨烯复合材料界面热输运性能研究”(No. FRF-IDRY-19-004), ￥10万, 2020.1.1-2021.12.31（主持）
2. 北京市自然科学基金面上项目“超高导热碳纳米管/石墨烯组装膜材料研究”(No. **), ￥20万, 2020.1.1-2022.12.31（主持）
3. 国家自然科学基金面上项目“纤维形状记忆复合材料热增强的界面调控”(No. **)，￥64.6万, 2019.1.1-2022.12.31（主持）
4. 国家重点研发计划子课题“基于CFD-DEM的移动床气固两相流动换热机理研究”(No.2017YFB**) , ￥90万, 2017.7.1-2020.6.30（主持）
5. 北京科技大学人才引进项目“导热可控的碳纳米管微纳热管理器件效能优化”, ￥30万, 2016.7.1-2019.6.30（主持）
6. 国家自然科学基金青年项目“纳米颗粒/碳纳米管复合纤维的热输运机理研究” (No.**), ￥25万, 2014.1.1-2016.12.31（主持）
7. 中关村科技园区管委会“中关村科技园区发展专项资金”, ￥50万, 2014.1.1-2015.6.30 （主持）
8. 中国航天空气动力技术研究院“轻质热防护材料性能调研及研究” (No.)，￥6万, 2014.10.20-2015.12.31（主持）
9. 国家重点研发计划课题“等级孔及复合结构声子波传递机理及协同调控强化方法”, ￥257万, 2019.9.1-2024.8.31（参与）
10. 英国皇家化学会（RS）国际交流项目“Engineered nanoparticle-carbon nanotube fibres with programmable properties”, ￡12,000, 2016.3.1-2018.2.28（参与）
11. 中国航空工业集团公司“大功率T/R芯片强化散热技术研究”, ￥100万, 2014.1.1-2016.12.31（参与）
12. 国家自然科学基金重点项目“飞秒、纳米时/空尺度热输运机理研究”， ￥300万, 2014.1.1-2018.12.31（参与）
13. 中国科学院仪器设备功能开发技术创新项目“具有独立探测器的谐波探测技术可移植化研究”, ￥30万, 2012.9.1-2014.8.31（参与）
14. 航天材料及工艺研究所“相变温控复合材料性能匹配及温控效能优化”,￥160万, 2012.1.1-2014.12.31（参与）
15. 国家重大科学研究计划（973）子课题“相变微胶囊传蓄热研究”, ￥56万, 2012.1.1-2013.12.31（参与）
16. 国家重大科学研究计划（973）课题“微纳米材料结构、热传递表征新方法及传热基本规律, ￥579万, 2011.9.11-2015.8.31（参与）