Education & Working Experience
2003.09-2007.07, School of Mechanical Engineering, University of Science and Technology Beijing (USTB), BEng in Thermal Energy & Dynamic Engineering
2007.09-2012.07, Institute of Engineering Thermophysics, Chinese Academy of Sciences (CAS), PhD in Engineering Thermophysics
2012.07-2016.05, Institute of Engineering Thermophysics, CAS, Assistant Professor
2015.03-2016.03, Department of Mechanical and Aerospace Engineering, University of Virginia, USA, Supervised by Prof. Pamela M. Norris, Postdoc
2016.06-2021.06, School of Energy and Environmental Engineering, USTB, Associate Professor
2016.08-2016.09, CNRS International NTU THALES Research Alliance, Nanyang Technological University, Singapore Supervised by Prof. Bengkang Tay, Visiting Scholar
2017.07-2017.08, School of Chemistry and Process Engineering, University of Leeds, UK Supervised by Prof. Dongsheng Wen, Visiting Scholar
2016.06-Present, School of Energy and Environmental Engineering, USTB, Professor

Teaching
1.Thermal engineering
2.Fundamentals of Thermal Engineering
3.Material thermal properties and thermal conductivity analysis (Chinese class)

Research projects
1.International Exchange Growth Plan Project for Young Teachers of USTB, “Thermal measurement and thermal transport mechanism of ceramic matrix composite phase change materials for medium and high temperature”, PI,￥80,000, 2020/5/14-2021/12/31.
2.Beijing Nova program, “Thermophysical property monitoring and health diagnosis and treatment of skin signs based on flexible sensors”, PI, ￥400,000, 2020/9/1-2023/8/31.
3.Interdisciplinary Research and Cultivation Project for Young Teachers of USTB, “Study on thermal transport properties of ultra-high thermal conductivity diamond/graphene composite interface”, PI, ￥100,000, 2020/1/1-2021/12/31.
4.Natural Science Foundation of Beijing, “Study on ultra-high thermal conductivity carbon nanotube/graphene assembly film materials”, PI, ￥200,000, 2020/1/1-2022/12/31.
5.National Natural Science Foundation of China (NSFC), “Thermal enhancement for fiber reinforced shape memory composites via interface control”, PI, ￥672,000, 2019/1/1-2022/12/31.
6.Ministry of Science and Technology of the People’s Republic of China (MSTC), “Study on heat transfer mechanism of moving bed gas-solid two-phase flow based on CFD-DEM”, PI, ￥900,000, 2017/7/1-2020/6/30.
7.Introduction of Talents Scheme of USTB, “Performance optimization of CNT-based micro-/nano-scale thermal management device via tuning thermal transport”, PI, ￥300,000, 2016/7/1-2019/6/30.
8.NSFC, “Study on thermal transport mechanism of nanoparticle-carbon nanotube composite fiber”, PI, ￥250,000, 2014/1/1-2016/12/31.
9.Zhongguancun High-Tech Park Administrative Board, “Fund for development of national innovation model of Zhongguancun area”, PI, ￥500,000, 2014/1/1-2015/6/30.
10.Test service project, "Thermal and Physical Property Test Service Project", PI, $822,000, 2012/9/1-2021/12/31.
11.Ministry of Science and Technology of the People’s Republic of China (MSTC), “Mechanism of Phonon Wave Transmission between Graded Pores and Composite Structures and Methods of Synergistic Regulation and Enhancement”, Co-PI, $2,570,000, 2019/9/1-2024/8/31.
12.Science and technology committee of Beijing, “Special Implementation Plan for Cultivation and Development Project of Science and Technology Innovation Base in 2018”, Co-PI, ￥1000,000, 2018/3/1-2020/3/31.
13.Institute of Aerospace Materials and Technology,“Optimization Analysis of Thermal and Physical ulation of Complex Phase Transformation Materials”, Co-PI, ￥400,000, 2018/8/1-2019/12/31.
14.National Natural Science Foundation of China (NSFC), “Study on Efficiency Optimization of Heat EnhPhase System”, Co-PI, ￥768,000, 2016/1/1-2019/12/31.
15.Royal Society (RS) International Exchange Program, “Engineered nanoparticle-carbon nanotube fibres with programmable properties”, Co-PI, ￡12,000, 2016/3/1-2018/2/28.
16.Aviation Industry Corporation of China, “Research on enhanced Heat Dissipation Technology of High-power T/R Chip”, Co-PI, 1,000,000, 2014/1/1-2016/12/31.
17.NSFC, “Study on Femtosecond, Nanoscale/space-scale Heat Transport Mechanism”, Co-PI, ￥3,000,000, 2014/1/1-2018/12/31.
18.Instrument and Equipment Function Development technology Innovation Project of Chinese Academy of Sciences, “Portable Research on Harmonic Detection Technology with Independent Detectors”, Co-PI, ￥300,000, 2012/9/1-2014/8/31.
19.863 Program, “×× Thermal Conductive Technology”, Co-PI, $650,000, 2012.7.1-2013.12.31
20.Institute of Aerospace Materials and Technology, “Matching of Phase Change Temperature-Controlled Composite Materials and Optimization of Temperature-Controlled Performance”, Co-PI, ￥1,600,000, 2012/1/1-2014/12/31.
21.National Program on Key Basic Research Project (973 Program), “Study on Heat Transfer and Storage of Phase Change Microcapsules”, Co-PI, ￥560,000, 2012/1/1-2013/12/31.
22.National Program on Key Basic Research Project (973 Program), “New Methods for Characterization of Heat Transfer and Basic Laws of Heat Transfer of Micro-nanomaterials”, Co-PI, ￥5,790,000, 2011/9/11-2015/8/31.

Social/ Academic Work
Editorial Board Member: Scientific Reports、Applied Thermal Engineering
Guest Editor: Energy (Special issue) 、Journal of Thermal Science、Applied Sciences
Session Chair: The 8th Asian Symposium on Computational Heat Transfer and Fluid Flow-2021
Member, Academic Committee, 7th International Micro Technology Conference (2019/4/26-27)
Member of the Engineering Thermophysics Committee, China Association of Higher Education
Member of youth Working Committee of Beijing Society of Thermal Physics and Energy Engineering
National Natural Science Foundation of China communications Review expert
Tianhe Technology achievement market transformation maturity evaluation system evaluator
Member of Experts of “Low carbon work Promotion Committee of China Iron and Steel Industry Association”

Main journal publications：
2021
1.Xiaoxin Yan, Yanhui Feng*, Lin Qiu*, Xinxin Zhang. Thermal conductivity and phase change characteristics of hierarchical porous diamond/erythritol composite phase change materials. Energy, 2021, 233,121158.(SCI)
2.Yanhui Feng*, Zhen Zhang, Jie Gao, Guangpeng Feng, Lin Qiu*, Daili Feng, Xinxin Zhang, Xun Zhu. Research status of centrifugal granulation, physical heat recovery and resource utilization of blast furnace slags. Journal of Analytical and Applied Pyrolysis, 2021, 157, 105220. (SCI)
3.Hanying Zou, Cheng Chen, Muxi Zha, Kangneng Zhou, Ruoxiu Xiao, Yanhui Feng*, Lin Qiu*, Zhiliang Wang. A neural regression model for predicting thermal conductivity of CNT nanofluids with multiple base fluids. Journal of Thermal Science, 2021, https://doi.org/10.1007/s11630-021-1497-1. (SCI)
4.L Qiu, Xiaohua Zhang*, Zhixin Guo, Qingwen Li. Interfacial heat transport in nano-carbon assemblies. Carbon, 2021, 178, 391-412.
5.L Qiu, Y Ouyang, Y Feng*, X Zhang, X Wang*, J Wu*, Thermal barrier effect from internal pore channels on thickened aluminum nanofilm. International Journal of Thermal Sciences, 2021, 162: 106781. (SCI)
6.L Qiu, Y Du, Y Bai, Y Feng*, X Zhang, J Wu*, X Wang, Cg Xu, Experimental characterization and model verification of thermal conductivity from mesoporous to macroporous SiOC ceramics. Journal of Thermal Science, 2021, 30(2), 465-476.(SCI)
7.L Qiu*, K Yan., Y Feng*, X Liu, X Zhang. Bionic hierarchical porous aluminum nitride ceramic composite phase change material with excellent heat transfer and storage performance. Composites Communications, 2021, 27,100892.(SCI)

2020
8.Qiu*,Y Ouyang,Y Feng*, X Zhang, X Wang*,In vivo skin thermophysical property testing technology using flexible thermosensor-based 3ω method.International Journal of Heat and Mass Transfer,2020,163:120550.
4.L Qiu, N Zhu, Y Feng*, E E Michaelides, G Żyła, D Jing, X Zhang, P M Norris, C N Markides, O Mahian*, A review of recent advances in thermophysical properties at the nanoscale: From solid state to colloids. Physics Reports, 2020, 843: 1-81.
5.L Qiu*, N Zhu, Y Feng*, X Zhang, X Wang*, Interfacial thermal transport properties of polyurethane/carbon nanotube hybrid composites. International Journal of Heat and Mass Transfer, 2020, 152: 119565.
1.L Qiu*, D Sang, Y Li, Y Feng*, X Zhang, Numerical simulation of gas-solid heat transfer characteristics of porous structure composed of high-temperature particles in moving bed. Applied Thermal Engineering, 2020, 181:115925.
2.L Qiu*, D Sang, Y Feng*, X Zhang, Experimental study on particle flow characteristics of three-dimensional moving bed. Powder Technology, 2020, 374: 399-408.
3.J Wu*, Z Wu, H Ding, Y Wei, W Huang, X Yang, Z Li, L Qiu*, X Wang*, Three-dimensional graphene hydrogel decorated with SnO2 for high-performance NO2 sensing with enhanced immunity to humidity. ACS Applied Materials & Interfaces, 2020, 12(2): 2634-2643.
4.J Wu*, Z Wu, H Ding, Y Wei, W Huang, X Yang, Z Li, L Qiu*, X Wang*, Flexible, 3D SnS2/reduced graphene oxide heterostructured NO2 sensor. Sensors and Actuators B, Chemical, 2020, 305: 127445.
5.W Chen, Y Feng*, L Qiu*, X Zhang, Scanning thermal microscopy method for thermal conductivity measurement of a single SiO2 nanoparticle. International Journal of Heat and Mass Transfer, 2020, 154: 119750.
6.L Qiu, D Sang, Y Feng*, H Huang, X Zhang, Study on heat transfer of process intensification in moving bed reactor based on the discrete element method. Chemical Engineering and Processing - Process Intensification, 2020, 151: 107915.
7.J Wang, J Zhao, L Qiu, F Li, C Xu, K Wu, P Wang, X Zhang*, Q Li*, Shampoo assisted aligning of carbon nanotubes toward strong, stiff and conductive fibers. RSC Advances, 2020, 10: 18715.
2019
8.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. Engineering Applications of Computational Fluid Mechanics, 2019, 13(1): 1036-1048.
9.L Qiu, Y Ouyang, Y Feng*, X Zhang, Review on micro/nano phase change materials for solar thermal applications. Renewable energy, 2019, 140: 513-538.
10.L Qiu, P Guo, Q Kong, 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. Carbon, 2019, 145: 725-733.
11.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. Carbon, 2019, 145: 650-657.
12.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. Carbon, 2019, 141: 497-505.
13.Y Feng*, H Zou, L Qiu*, X Zhang, Size effect on the thermal conductivity of octadecanoic acid: A molecular dynamics study. Computational Materials Science, 2019, 158: 14-19.
14.Y Feng*, Z Zhang, L Qiu*, X Zhang, Heat recovery process modelling of semi-molten blast furnace slag in a moving bed using XDEM. Energy, 2019, 186: 115876.
15.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. ACS sensors, 2019, 4(7): 1889-1898.
16.J Wu*, Z Wu, H Ding, Y Wei, X Yang, Z Li, B Yang, C Liu, L Qiu*, X Wang*, Multifunctional and high-sensitive sensor capable of detecting humidity, temperature, and flow stimuli using an integrated microheater. ACS Applied Materials & Interfaces, 2019, 11(46): 43383-43392.
17.J Wu*, Z Wu, H Ding, Y Wei, W Huang, X Yang, Z Li, L Qiu*, X Wang*, Flexible, 3D SnS2/reduced graphene oxide heterostructured NO2 sensor. Sensors and Actuators B: Chemical, 2020, 305: 127445.
18.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. Renewable and Sustainable Energy Reviews, 2019, 109: 578-605.
19.L Qiu, Y Li, Y Feng*, X Zhang. Numerical simulation of waste heat recovery for blast furnace slags with multi-particle-size distribution in moving Bed. Journal of Engineering Thermophysics, 2019, 40(10): 2407-2414.
20.L Qiu, P Guo, Y Feng*, X Zhang. Enhancement of carbon nanotube array interface thermal transport using nano-coating. Journal of Engineering Thermophysics, 2019, 40(9):2109-2114.
21.L Qiu, D Sang, Y Feng*, Y Gong, X Zhang. Optimization analysis of waste heat recovery in blast furnace slag fluidized bed. Journal of Engineering Thermophysics, 2019, 40(5): 1086-1094.
2018
22.L Qiu, P Guo, H Zou, Y Feng*, X Zhang, S Pervaiz, D Wen, Extremely low thermal conductivity of graphene nanoplatelets using nanoparticle decoration. ES Energy & Environment, 2018, 2: 66-72.
23.L Qiu, Y Feng*, Z Chen, Y Li, X Zhang, Numerical simulation and optimization of the melting process for the regenerative aluminum melting furnace. Applied Thermal Engineering, 2018, 145: 315-327.
24.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.
25.L Qiu, Y Ouyang, Y Feng*, X Zhang, Note: Thermal conductivity measurement of individual porous polyimide fibers using a modified wire-shape 3ω method. Review of Scientific Instruments, 2018, 89(9): 096112.
26.L Qiu, H Zou, N Zhu, Y Feng*, X Zhang, X Zhang, Iodine nanoparticle-enhancing electrical and thermal transport for carbon nanotube fibers. Applied Thermal Engineering, 2018, 141: 913-920.
27.L Qiu, H Zou, D Tang, D Wen, Y Feng*, X Zhang, Inhomogeneity in pore size appreciably lowering thermal conductivity for porous thermal insulators. Applied Thermal Engineering, 2018, 130: 1004-1011.
28.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. Surface and Coatings Technology, 2018, 345: 105-112.
29.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. Macromolecular Rapid Communications, 2018, 39(16): 1800283.
30.W Yu*, C Liu, L Qiu, P Zhang, W Ma, Y Yue, H Xie, L S Larkin, Advanced thermal interface materials for thermal management. Engineered Science, 2018, 2, 95-97.
31.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. Applied Surface Science, 2014, 317(30), 338-349.
32.L Qiu, D Sang, Y Feng*, A Yang, X Zhang. Analysis of particle motion characteristics in a funnel-shape moving bed. Journal of Engineering Thermophysics, 2018, 39(12):2708-2713.
33.L Qiu, P Guo, H Zou, Y Feng*, X Zhang, X Zhang, J Zhao, Q Li. Interface design and thermal/electrical transport regulation of carbon nanotube fibers. Journal of Engineering Thermophysics, 2018, 39(6): 1344-1348.
2017
34.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. Carbon, 2017, 120: 128-136.
35.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. physica status solidi (a), 2017, 214(7): 1600852.
36.L Qiu, Kimberly S, Suhaib R A, LeighAnn L S, Christopher S B, Y Feng*, X Zhang. Optimized growth of multi-walled carbon nanotube arrays for thermal interface applications. Journal of Engineering Thermophysics, 2017, 38(6): 1323-1326.
2016
37.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. Carbon, 2016, 105: 248-259.
38.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. Scientific reports, 2016, 6: 21014.
39.X Zheng, L Qiu*, P Yue, G Wang, D Tang, 3ω slope comparative method for fluid and powder thermal conductivity measurements. Modern Physics Letters B, 2016, 30(25): 1650322.
40.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. Advanced materials, 2016, 28(17): 3351-3358.
41.Y Cao, L Qiu*, X Zheng, D Tang, Q Zhu, Z Pei, A Micro Sensor-based on 3ω Method for thermal conductivity measurement of solids. Journal of Engineering Thermophysics, 2016, 37(4): 803-806.
2015
42.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. International Journal of Thermophysics, 2015, 36(10-11): 2523-2534.
43.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. International Journal of Thermal Sciences, 2015, 89: 185-192.
44.P Han, X Zheng*, W Hou, L Qiu*, D Tang,Study on heat-storage and release characteristics of multi-cavity-structured phase-change microcapsules. Phase Transitions, 2015, 88(7): 704-715.
45.L Qiu, X Zheng*, P Yue, D Tang, L Cao, Y Deng, Thermal conductivity measurement of oriented thin film with columnar nanostructures. Journal of Engineering Thermophysics, 2015, 36(4): 816-819.
2014
46.L Qiu, Y Li, X Zheng*, J Zhu, D Tang, J Wu, C Xu, Thermal-conductivity studies of macro-porous polymer-derived SiOC ceramics. International Journal of Thermophysics, 2014, 35(1): 76-89.
47.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.
48.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. Journal of Applied Physics, 2014, 116(9): 093503.
49.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. Applied Surface Science, 2014, 317: 338-349.
50.P Yue, L Qiu*, X Zheng, D Tang, The Effective Thermal Conductivity of Porous Polymethacrylimide Foams. Key Engineering Materials. Trans Tech Publications, 2014, 609: 196-200.
2013
51.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. International Journal of Thermophysics, 2013, 34(12): 2261-2275.
52.L Qiu, X Zheng*, J Zhu, G Su, D Tang, The effect of grain size on the lattice thermal conductivity of an individual polyacrylonitrile-based carbon fiber. Carbon, 2013, 51: 265-273.
53.G Su, X Zheng*, L Qiu, D Tang*, J Zhu, Measurement of thermal conductivity of anisotropic SiC crystal. International Journal of Thermophysics, 2013, 34(12): 2334-2342.
54.G Zhao*, X Xu, L Qiu, X Zheng, D Tang, Study on the heat conduction of phase-change material microcapsules. Journal of Thermal Science, 2013, 22(3): 257-260.
55.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. Thermochimica Acta, 2013, 560: 1-6.
56.X Zheng, L Qiu*, L Li, P Yue, G Wang, D Tang. Thermal effusivity measurement of phase change materials microcapsules. Journal of Engineering Thermophysics, 2013, 34(9):1692-1694.
2012
57.X Zheng, L Qiu, J Zhu, G Su, D Tang. Thermal conductivity measurement of phase change materials microcapsules. Journal of Engineering Thermophysics, 2012, 33(3):454-456.
2011
58.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. Review of Scientific Instruments, 2011, 82(8): 086110.
59.L Qiu, D Tang*, X Zheng, G Su, The freestanding sensor-based 3ω technique for measuring thermal conductivity of solids: principle and examination. Review of Scientific Instruments, 2011, 82(4): 045106.
60.X Zheng*, L Qiu, G Su, D Tang, Y Liao, Y Chen, Thermal conductivity and thermal diffusivity of SiO2 nanopowder. Journal of Nanoparticle Research, 2011, 13(12): 6887-6893.
61.L Qiu, X Zheng, G Su, D Tang, Freestanding sensor-based 3ω technique for thermal conductivity measurement of solids. Journal of Engineering Thermophysics, 2011, 32(4): 621-624.
62.X Zheng, Lin Q, G Su, D Tang, Simultaneous measurements of thermal conductivity and thermal diffusivity of SiO2 nano-powder using 3ω method. Journal of Engineering Thermophysics, 2011, 32(S1):190-193.
63.G Su, D Tang, X Zheng, L Qiu, J Du, Determination of thermal conductivity of anisotropic SiC crystal using 3ω method. Journal of Engineering Thermophysics, 2011, 32(11):1885-1888.
2010
64.L Qiu, X Zheng, Q Li, D Tang*, Y Qian, W Zhang. Thermal conductivity and thermal diffusivity of ceramic thermal barrier coatings. Journal of Functional Materials, 2010, 41(S2): 264-267.

Books
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 (co-edited)
2. Thermal Regulation of Micro-nano Structural Materials, Chapter 2: Characterization of thermophysical properties of micro-nano structural Materials, Science Press, 2014 (co-edited).

Patents
1.L Qiu, X Zheng, D Li, D Tang. “A Device for Testing Thermophysical Parameters of Materials by Double Helix Planar Harmonic Method”. Invention patent, China, ZL 201410078886.1, 2016/6/1.
2.L Qiu, X Zheng, X Xu, L Li, D Tang. “Devices and Methods for Testing Thermophysical Parameters of Materials”. Invention patent, China, ZL 201310032893.3, 2106/2/24.
3.L Qiu, X Xu, D Tang, J Zhu, W Bu. “Optical Systems and Methods for Measuring Thermophysical Parameters of Solids”. Invention patent, China, ZL 201210476747.5, 2014/8/20.
4.L Qiu, X Zheng, D Tang. “Measuring Device and Method for Measurement of Heat Absorption Coefficient”. Invention patent, China, ZL 201210258346.2, 2014/4/9.
5.L Qiu, Y Feng, X Zhang, Z Zhang, H Zou. “Method and Device for preparing High purity and high thermal conductivity Carbon nanotube Array Thermal Interface Materials”. Invention patent, China, ZL 201611126343.8, 2018/6/1.
6.L Qiu, D Tang, Y Feng, X Zhang. “Devices and Methods for Field Accurate Testing of the Thermal conductivity of Energy-saving Thermal Insulating Materials”. Invention patent, China, ZL 201610580315.7, 2018/9/14.
7.X Zheng, L Qiu, D Tang. “Device and Method for Measuring Material Heat Storage Coefficient by Harmonic Method Based on Independent Sensor”. Invention patent, China, ZL 201110138899.X, 2013/2/13.
8.X Zheng, L Qiu, G Su, D Tang. “Testing Methods and Devices for Thermal Properties of Single Conductive Filament Materials by Harmonic Method”. Invention patent, China, ZL 201010141035.9, 2012/10/31.
9.X Zheng, L Qiu, G Su, D Tang. “Test Method for Thermal Properties of Micro/Nano Thin Films by Harmonic Method”. Invention patent, China, ZL 201010218390.1, 2012/6/27.
10.X Zheng, L Qiu, D Tang. “Method and device for testing thermophysical properties of solid materials by harmonic method with independent Probe”. Invention patent, China, ZL 200910242362.0, 2011/10/5.
11.X Zheng, P Yue, Y Li, L Qiu, D Tang. “Spiral Coil Type Non-phase change Heat Extraction Device”. Invention patent, China, ZL 201410194345.5, 2017/8/25.
12.X Zheng, G Su, D Tang, L Qiu. “Method for the determination of thermal conductivity and thermal diffusivity of anisotropic materials” Invention patent, China, ZL 201010201486.7, 2013/5/8.
13.L Qiu, Y Ouyang, Y Feng, X Zhang. “A non-destructive Measuring device for three-dimensional anisotropic Thermal conductivity of materials”. Patent for Utility Model, China, ZL 20181692160.7, 2019/5/31.
14.L Qiu, Y Feng, X Zhang, Z Zhang, H Zou. “A Thermal interface Material Preparation Device for high purity and High thermal conductivity Carbon nanotube Array”. Patent for Utility Model, China, ZL 201621345714.7, 2017/6/27.
15.L Qiu, X Zheng, D Tang. “Veneered Sensors and Measuring Devices”. Patent for Utility Model, China, ZL 201220360421.1, 2013/2/13.
16.X Zheng, L Qiu, D Tang. “Testing Device for thermophysical Properties of Solid Materials by Harmonic Method with Independent Probe”. Patent for Utility Model, China, ZL 200920277780.9, 2010/7/28.
17.X Zheng, P Yue, Y Li, L Qiu, D Tang. “Anti-gravity Helical coil Type Non-phase change Heating Device”. Patent for Utility Model, China, ZL 201420237565.7, 2014/9/24.