Book and Book Chapters

 

  1. Yangsu Xie, Yanan Yue, Xinwei Wang, "Part II: Experimental methods to investigate heat transfer in nanoscale," Thermal Behaviour and Applications of Carbon-Based Nanomaterials, Editors: Dimitrios Papavassiliou Hai Duong,  Feng Gong, 2020. Paperback ISBN: 9780128176825, eBook ISBN: 9780128176832, Imprint: Elsevier

  2. Shen Xu, Lijun Zhang, Yanan Yue, and Xinwei Wang, "Physics in Laser Near-Field Nanomanufacturing: Fundamental Understanding and Novel Probing," Encyclopedia of Nanotechnology, DOI 10.1007/978-94-007-6178-0_100915-1, Springer.

  3. Experimental Micro/Nanoscale Thermal Transport, June 5, 2012, ISBN: 978-1-118-00744-0, John Wiley & Sons, Inc.

  4. Section editor, Encyclopedia of Thermal Stresses, September 30, 2013, edited by Richard B. Hetnarski, Springer, ISBN 978-94-007-2740-3.

  5. Xinwei Wang, Baratunde A. Cola,Thomas L. Bougher, Stephen L. Hodson, Timothy S. Fisher, & Xianfan Xu, "Chapter 5: Photoacoustic Technique for Thermal Conductivity and Thermal Interface Measurements," Annual Review of Heat Transfer, ISBN: 978-1-56700-222-6, 2013.

  6. "Tips on Getting an Academic Position" in book "Tips on Getting an Academic Position" edited by Zhijian Pei, ISBN 978-0-557-05363-6, 2009.

Journals

 

  1. Yurui Liu, Yue Wu, and Xinwei Wang, 2024, "Thermal transports in the MXenes family: opportunities and challenges," Nano Research (in print).

  2. Ibrahim Al Keyyam, Mahya Rahbar, Nicholas Hunter, Baini Li, Tianyu Wang, Enzheng Shi, Xinwei Wang, 2024, "T-n (n: 2.4~2.56) Temperature Dependence of Thermal Resistance at Single-Walled Carbon Nanotubes/SiO2 Interface at <8 nm Scale," International Journal of Heat and Mass Transfer, Vol. 226, 125513.

  3. Yixin Luo, Moham Ed Abdur Razzaq, Wangda Qu, Abdulrahman A. B. A. Mohammed, Alvina Aui, Hamidreza Zobeiri, Mark Mba Wright, Xinwei Wang and Xianglan Bai, 2024, "Introducing thermo-mechanochemistry of lignin enabled the production of high-quality low-cost carbon fiber," Green Chemistry, DOI: 10.1039/d3gc04288j.

  4. Hamidreza Zobeiri, Jingchao Zhang, Amin Karamati, Yangsu Xie, Xinwei Wang, 2024, "Anisotropic Temperatures in Multi-layered 2D Materials," Journal of Applied Physics, Vol. 135, 085102.

  5. Jing Liu, Ibrahim Al Keyyam, Yangsu Xie, and Xinwei Wang, 2024, "Perspectives on Interfacial Thermal Resistance of 2D Materials: Raman Characterization and Underlying Physics," Surface Science and Technology, Vol. 2:8, https://doi.org/10.1007/s44251-024-00037-6.

  6. Ibrahim Al Keyyam, Mahya Rahbar, Enzheng Shi, Baini Li, Tianyu Wang, Xinwei Wang, 2024, "Thermal Conductance between <6 nm Single-walled Carbon Nanotube Bundle and Si Substrate," The Journal of Physical Chemistry C, Vol. 128, 1505-1517.

  7. Baojia He, Mahya Rahbar, Chunchi Lu, Xinwei Wang, Ying Wang, Shen Xu, Yanfeng Xing, Bo Huang, 2024,"One-step preparation of lithium titanate/copper compounds/copper sandwich-structured electrodes for high capacity and thermal conductivity lithium-ion batteries," Materials Letters, 357, 135708.

  8. Zhipeng Wu, Xi Huang, Wanting Sun, Haoyu Dong, Aofei Mao, Bai Cui, Jean-Francois Silvain, Xinwei Wang, and Yongfeng Lu, 2023, "Time-resolved Imaging of Microscale Dynamics in Laser Drying of Silicon Wafers," Applied Surface Science, Vol. 645, 158844.

  9. Mahya Rahbar, Baini Li, Nicholas Hunter, Ibrahim Al Keyyam, Tianyu Wang, Enzheng Shi, Xinwei Wang, 2023, "Average Grain Boundary-induced Phonon Mean Free Path of sub-7 nm Highly Aligned SWCNT Bundle Uncovered by Low-momentum Phonon Scattering," Cell Reports Physical Science, Vol. 4, 101688.

  10. Qusai Alahmad, Mahya Rahbar, Meng Han, Huan Lin, Shen Xu, Xinwei Wang, 2023, "Thermal Conductivity of Gas Diffusion Layers of PEM Fuel Cells: Anisotropy and Effects of Structures," International Journal of Thermophysics, Vol. 44, 167.

  11. Qiuchi Zhu, Wanting Sun, Yongchul Yoo, Xiang Zhang, Nicholas Hunter, Aofei Mao, Nan Li, Xi Huang, Peixun Fan, Xinwei Wang, Bai Cui, Yongfeng Lu, 2023, "Enhance corrosion resistance of 304 stainless steel using nanosecond pulsed laser surface processing," Surfaces and Interfaces, Vol. 42, 103479.

  12. Amin Karamati, Wangda Qu, Xianglan Bai, Xinwei Wang, 2023, "Function Graded Carbon Micro-structures for Powerless Photon Sensing with Intriguing um-scale Position Sensitivity," Advanced Optical Materials, 2301377.

  13. Amin Karamati, Shen Xu, Huan Lin, Mahya Rahbar, Xinwei Wang, 2023,  "Thermophysical Properties of 1D Materials: Transient Characterization down to Atomic Level," Journal of University of Science and Technology of China, 53(10): 1001. DOI: 10.52396/JUSTC-2023-0098.

  14. Amin Karamati, Cheng Deng, Wangda Qu, Xianglan Bai, Shen Xu, Gyula Eres, Xinwei Wang, 2023, "Temperature Dependence of Resistivity of Carbon Micro/Nanostructures: Microscale Spatial Distribution with Mixed Metallic and Semiconductive Behaviors," Journal of Applied Physics, 134, 085102.

  15. Yangsu Xie, Xinwei Wang, 2023, "Thermal Conductivity of Carbon-based Nanomaterials: Deep Understanding of the Structural Effects," Green Carbon, Vol. 1, 47-57.

  16. Xinwei Wang, 2023, "Perspectives on Energy Transport at the Micro/Nanoscale," Nanomaterials, 13, 1746 (Editorial).

  17. Qusai Alahmad, Mahya Rahbar, Amin Karamati, John Bai, Xinwei Wang, 2023, "3D Strongly Anisotropic Intrinsic Thermal Conductivity of Polypropylene Separator," Journal of Power Sources, Vol. 580, 233377.

  18. Hong Yu, Hengyun Zhang, Jinghe Shi, Shunbo Liu, Zhaozang Yi, Shen Xu, Xinwei Wang, 2023, "Thermal parameters of cylindrical power batteries: Quasi-steady state heat
    guarding measurement and thermal management strategies," Applied Thermal Engineering, Vol. 231, 120959.

  19. Shen Xu, Xinwei Wang, 2023, "Stress Waves in Laser-material Interaction: from Atomistic Understanding to Nanoscale Characterization," Journal of Thermal Stresses,Vol. 46, No. 6, 464-491.

  20. Nathan Van Velson, Hamidreza Zobeiri, and Xinwei Wang, 2023, "Thickness Dependent Raman Scattering from Thin Film Systems," Journal of Physical Chemistry C, 127, 2995−3004.

  21. Huan Lin, Nicholas Hunter, Hamidreza Zobeiri, Yanan Yue Xinwei Wang, 2023, "Ultra-high Thermal Sensitivity of Graphene Microfiber," Carbon, 203, 620-629.

  22. Mahya Rahbar, Meng Han, Shen Xu, Hamidreza Zobeiri, Xinwei Wang, 2023, "Development of Differential Thermal Resistance Method for Thermal Conductivity Measurement Down to Microscale," International Journal of Heat and Mass Transfer, 202, 123712.

  23. Nicholas Hunter, Mahya Rahbar, Ridong Wang, Masoud Mahjouri-Samani, Xinwei Wang, 2022, "Determination of A Raman shift laser power coefficient based on cross-correlation," Optics Letters, 47, 6357-6360.

  24. Lingyu Huang, Kang Xu, Dandan Yuan, Jin Hu, Xinwei Wang, and Shaolin Xu, 2022, "Sub-wavelength patterned pulse laser lithography for efficient fabrication of large-area metasurfaces," Nature Communications, 13, 5823.

  25. Amin Karamati, Nicholas Hunter, Huan Lin, Hamidreza Zobeiri, Shen Xu, Xinwei Wang, 2022, "Strong linearity and effect of laser heating location in transient photo/electrothermal characterization of micro/nanoscale wires," Int. J. of Heat and Mass Transfer, Vol. 198, 123393.

  26. Dandan Yuan, Jun Li, Jiaxu Huang, Min Wang, Shaolin Xu, and Xinwei Wang, 2022, "Large-Scale Laser Nanopatterning of Multiband Tunable Mid-Infrared Metasurface Absorber," Advanced Optical Materials, 2200939.

  27. Nicholas Hunter, Amin Karamati, Yangsu Xie, Huan Lin, Xinwei Wang, 2022, "Laser photoreduction of graphene aerogel microfibers: dynamic electrical and thermal behaviors," ChemPhysChem, e202200417.

  28. Shen Xu, Nicholas Hunter, Hamidreza Zobeiri, Huan Lin, Wenlong Cheng, and Xinwei Wang, 2022, "Distinct optical and acoustic phonon temperatures in nm-thick suspended WS2: direct differentiating via acoustic phonon thermal field invariant," Materials Today Physics, Vol. 27, 100816.

  29. Ridong Wang, Nicholas Hunter, Hamidreza Zobeiri, Shen Xu, Xinwei Wang, 2022, "Critical Problems Faced in Raman-based Energy Transport Characterization of Nanomaterials" Physical Chemistry Chemical Physics, 24, 22390.

  30. Aofei Mao, Peixun Fan, Loic Constantin, Nan Li, Xi Huang, Bai Cui, Jean-Francois Silvain, Xinwei Wang, Yong Feng Lu, 2022, "Forming three-dimensional micro-objects using two-dimensional gradient printing," Applied Materials Today, 28, 101538.

  31. Hamidreza Zobeiri, Nicholas Hunter, Shen Xu, Yangsu Xie, and Xinwei Wang, 2022, "Robust and High-sensitivity Thermal Probing at the Nanoscale based on Resonance Raman Ratio (R3)" Int. Journal of Extreme Manufacturing, 4, 035201 (12pp).

  32. Liang Zhao, Lingyu Huang, Jiaxu Huang, Kang Xu, Min Wang, Shaolin Xu,and Xinwei Wang, 2022, "Far-Field Parallel Direct Writing of Sub-Diffraction-Limit Metallic Nanowires by Spatially Modulated Femtosecond Vector Beam," Advanced Materials Technologies, 2200125.

  33. Yilong Luan, Hamidreza Zobeiri, Xinwei Wang, Eli Sutter, Peter Sutter, Zhe Fei, 2022, "Imaging anisotropic waveguide exciton polaritons in tin sulfide," Nano Letters, Vol. 22, 1497−1503.

  34. Jing Liu, Meng Han, Ridong Wang, Shen Xu, Xinwei Wang, 2022, "Photothermal Phenomenon: Extended Ideas for Thermophysical Properties Characterization," Journal of Applied Physics, Vol. 131, 065107. [selected as "Editor's Pick"]

  35. Nicholas Hunter, Nurul Azam, Hamidreza Zobeiri, Nathan Van Velson, Masoud Mahjouri-Samani, Xinwei Wang, 2021, "Interface Thermal Resistance between Monolayer WSe2 and SiO2: Raman Probing with Consideration of Optical-Acoustic Phonon Nonequilibrium," Advanced Materials Interfaces, 2102059.

  36. Yangsu Xie, Hamidreza Zobeiri, Liping Xiang, Gyula Eres, Jianmei Wang, Xinwei Wang, 2021, "Dual-Pace Transient Heat Conduction in Vertically Aligned Carbon Nanotube Arrays Induced by Structure Separation," Nano Energy, Vol. 90, 106516.

  37. Hamidreza Zobeiri, Nicholas Hunter, Nathan Van Velson, Cheng Deng, Qianying Zhang, Xinwei Wang, 2021, "Interfacial Thermal Resistance between nm-thick MoS2 and Quartz Substrate: A Critical Revisit under Phonon Mode-wide Thermal Non-equilibrium," Nano Energy, Vol. 89, 106364.

  38. Nicholas Hunter, Hamidreza Zobeiri, Tianyu Wang, Xinwei Wang, 2021, "Effect of Time and Spatial Domains on Monolayer 2D Material Interface Thermal Conductance Measurement using ns ET-Raman," International Journal of Heat and Mass Transfer, Vol. 179, 121644.

  39. Shen Xu, Hamidreza Zobeiri, Nicholas Hunter, Hengyun Zhang, Gyula Eres, Xinwei Wang, 2021, "Photocurrent in Carbon Nanotube Bundle: Graded Seebeck Coefficient Phenomenon," Nano Energy, Vol. 86, 106054.

  40. Huan Lin, Ridong Wang, Hamidreza Zobeiri, Tianyu Wang, Shen Xu, Xinwei Wang, 2021, "In-Plane Structure Domain Size of nm-thick MoSe2 Uncovered by Low-momentum Phonon Scattering," Nanoscale, Vol. 13, 7723-7734.

  41. Hamidreza Zobeiri, Nicholas Hunter, Ridong Wang, Tianyu Wang, and Xinwei Wang, 2021, "Direct Characterization of Thermal Non-equilibrium between Optical and Acoustic Phonons in Graphene Paper under Photon Excitation," Advanced Science, 2004712.

  42. Jianshu Gao, Hamidreza Zobeiri, Huan Lin, Danmei Xie, Yanan Yue, and Xinwei Wang, 2021, "Coherency between Thermal and Electrical Transport of Partly Reduced Graphene Paper," Carbon, Vol. 178, pp. 92-102.

  43. Ming Hou, Shenghui Guo, Li Yang, Jiyun Gao, Tu Hu, Xinwei Wang, Yongxiang Li, 2021, "Improvement of gas sensing property for two-dimensional Ti3C2Tx treated with oxygen plasma by microwave energy excitation," Ceramics International, Vol. 47, 7728-7737.

  44. Shen Xu, Hongyang Zhu, Lijun Zhang, Yanan Yue, Xinwei Wang, 2021, "Exploration of Physics in Laser Assisted Near-field Nanomanufacturing," invited review, Chinese Journal of Lasers, Vol. 6, 0600001.

  45. Jianshu Gao, Danmei Xie, Xinwei Wang, Xin Zhang, and Yanan Yue, 2020, "High Thermal Conductivity of Free-standing Skeleton in Graphene Foam," Applied Physics Letters, Vol. 117, 251901, DOI: 10.1063/5.0032408.

  46. Hamidreza Zobeiri, Nicholas Hunter, Ridong Wang, Xinman Liu, Hong Tan, Shen Xu,  Xinwei Wang, 2020, "Thermal Conductance between Water and nm-thick WS2: Extremely Localized Probing Using Nanosecond Energy Transport State-Resolved Raman," Nanoscale Advances, Vol. 2, 5821.

  47. Nathan Van Velson, Hamidreza Zobeiri, and Xinwei Wang, 2020, "Rigorous Prediction of Raman Intensity from Multi-Layer Films," Optics Express, Vol. 28, 35272.

  48. Nicholas Hunter, Nurul Azam, Hamidreza Zobeiri, Ridong Wang, Masoud Mahjouri-Samani, and Xinwei Wang, 2020, "Interfacial Thermal Conductance between Monolayer WSe2 and SiO2 under Consideration of Radiative Electron-hole Recombination," ACS Applied Materials and Interfaces, Vol. 12, 51069-51081.

  49. Ridong Wang, Tianyu Wang, Hamidreza Zobeiri, Dachao Li, and Xinwei Wang, 2020, "Energy and Charge Transport in 2D Atomic Layer Materials: Raman-Based Characterization," invited review, Nanomaterials, Vol. 10, 1807.

  50. Shen Xu , Jing Liu, and Xinwei Wang, 2020, "Thermal Conductivity Enhancement of Polymers via Structure Tailoring," invited review, Journal of Enhanced Heat Transfer, Vol. 27, 463-489.

  51. Ridong Wang Shen Xu, Yanan Yue, Xinwei Wang, 2020, "Thermal Behavior of Materials in Laser-assisted Extreme Manufacturing: Raman-based Novel Characterization," invited review, International Journal of Extreme Manufacturing, Vol. 2, 032004.

  52. Ridong Wang, Hamidreza Zobeiri, Yangsu Xie, Xinwei Wang, Xing Zhang, Yanan Yue, 2020, "Distinguish Optical and Acoustic Phonon Temperatures and Their Energy Coupling Factor under Photon Excitation in nm 2D Materials," Advanced Science, 2000097 (Supporting information).

  53. Shen Xu, Aoran Fan, Haidong Wang, Xing Zhang, and Xinwei Wang, 2020, "Raman-based Nanoscale Thermal Transport Characterization: A Critical Review," International Journal of Heat and Mass Transfer, Vol. 154, 119751.

  54. Hamidreza Zobeiri, Shen Xu, Yanan Yue, Qianying Zhang, Yangsu Xie, Xinwei Wang, 2020, "Effect of Temperature on Raman Intensity of nm-thick WS2: Combined Effects of Resonance Raman, Optical Properties, and Interface Optical Interference," Nanoscale, Vol. 12, 6064, DOI: 10.1039/c9nr10186a

  55. Chenghao Deng, Tianze Cong, Yangsu Xie, Ridong Wang, Tianyu Wang, Lujun Pan and Xinwei Wang, 2020, "In Situ Investigation of Annealing Effect on Thermophysical Properties of Single Carbon Nanocoil," International Journal of Heat and Mass Transfer, Vol. 151, 119416.

  56. Xinwei Wang, 2019, "Thermal Reffusivity: From Energy Transport to Structure Domain Size," [阻温系数:从能量传递到结构尺寸], Invited Review, Journal of Chongqing University of Science and Technology, Vol. 21, pp. 1-6.

  57. Fang Yang, Ridong Wang, Weiwei Zhao, Jie Jiang, Xin Wei, Ting Zheng, Yutian Yang, Xinwei Wang, Junpeng Lu, and Zhenhua Ni, 2019, "Thermal transport and energy dissipation in two-dimensional Bi2O2Se," Applied Physics Letters, 115, 193103.

  58. Jingshuai Guo, Amir Ehsan Niaraki Asli, Kelli R. Williams, Pei Lun Lai,  Xinwei Wang, Reza Montazami and Nicole N. Hashemi, 2019, "Viability of Neural Cells on 3D Printed Graphene Bioelectronics," Biosensors, 9, 112.

  59. Hamidreza Zobeiri, Ridong Wang, Cheng Deng, Qianying Zhang, Xinwei Wang, 2019, "Polarized Raman of Nanoscale 2D Materials: Combined Optical and Structural Effects," The Journal of Physical Chemistry C, 123, 23236−23245.

  60. Hamidreza Zobeiri, Ridong Wang, Qianying Zhang, Guangjun Zhu, Xinwei Wang, 2019, "Hot Carrier Transfer and Phonon Transport in Suspended nm WS2 Films," Acta Materialia, Vol. 175, 222-237.

  61. Chenghao Deng, Peng Wang, Chengwei Li, Xinwei Wang, Lujun Pan, 2019, "Effect of ethanol soaking on the structure and physical properties of carbon nanocoils," Diamond and Related Materials, Vol. 97, 107426.

  62. Yangsu Xie, Meng Han, Ridong Wang, Hamidreza Zobeiri, Xin Deng, Peixin Zhang, Xinwei Wang, 2019, "Graphene Aerogel based Bolometer for Ultrasensitive Sensing from Ultraviolet to Far-Infrared" ACS Nano, Vol. 13, 5385-5396.

  63. Bolin Chen, Meng Han, Bowei Zhang, Gaoyuan Ouyang, Behrouz Shafei, Xinwei Wang and Shan Hu, 2019, "Efficient Solar-to-Thermal Energy Conversion and Storage with High-Thermal-Conductivity and Form-Stabilized Phase Change Composite Based on Wood-Derived Scaffolds," Energies, 12, 1283.

  64. Ridong Wang, Hamidreza Zobeiri, Huan Lin, Wangda Qu, Xianglan Bai, Cheng Deng, Xinwei Wang, 2019, "Anisotropic Thermal Conductivities and Structure in Lignin-based Microscale Carbon Fibers," Carbon, Vol. 147,  58-69.

  65. Hamidreza Zobeiri, Ridong Wang, Tianyu Wang, Huan Lin, Cheng Deng, Xinwei Wang, 2019, "Frequency-domain Energy Transport State-resolved Raman for Measuring the Thermal Conductivity of Suspended nm-thick MoSe2," International Journal of Heat and Mass Transfer, Vol. 133, 1074-1085.

  66. Ridong Wang, Tianyu Wang, Hamidreza Zobeiri, Pengyu Yuan, Cheng Deng, Yanan Yue, Shen Xu, and Xinwei Wang, 2018, "Measurement of Thermal Conductivity of Suspended MoS2 and MoSe2 by Nanosecond ET-Raman Free of Temperature Calibration and Laser Absorption Evaluation," Nanoscale, 10, 23087.

  67. Pengyu Yuan, Ridong Wang, Tianyu Wang, Xinwei Wang1, Yangsu Xie, 2018, "Nonmonotonic Thickness-dependence of In-plane Thermal Conductivity of Few-Layered MoS2: 2.4 to 37.8 nm," Physical Chemistry Chemical Physics, 20, 25752. (Supplementary information).

  68. Yangsu Xie, Tianyu Wang, Bowen Zhu, Chaoyi Yan, Peixin Zhang, Xinwei Wang, Gyula Eres, 2018, "19-fold Thermal Conductivity Increase of Carbon Nanotube Bundles toward High-end Thermal Design Applications," Carbon, Vol. 139, pp. 445-458.

  69. Yan Li, Chong Li, Wenlong Yao, Xinwei Wang, 2018, "Solid-to-Super-Critical Phase Change and Resulting Stress Wave during Internal Laser Ablation," Journal of Thermal Stresses, Vol. 41, pp. 1364-1379.

  70. Chenghao Deng, Chengwei Li, Peng Wang, Xinwei Wang and Lujun Pan, 2018, "Revealing the linear relationship between electrical, thermal, mechanical and structural properties of carbon nanocoils," Physical Chemistry Chemical Physics, Vol. 20, pp. 13316-13321.

  71. Meng Han, Yangsu Xie, Jing Liu, Jingchao Zhang, Xinwei Wang, 2018, "Significantly Reduced c-axis Thermal Diffusivity of Graphene-based Papers," Nanotechnology, Vol. 29, 264702.

  72. Tianyu Wang, Meng Han, Ridong Wang, Pengyu Yuan, Shen Xu, and Xinwei Wang, 2018, "Characterization of Anisotropic Thermal Conductivity of Suspended nm-thick Black Phosphorus with Frequency-resolved Raman Spectroscopy," Journal of Applied Physics, Vol. 123, 145104, doi: 10.1063/1.5023800.

  73. Bowen Zhu, Ridong Wang, Shay Harrison, Kirk Williams, Ram Goduguchinta, John Schneiter, Joseph Pegna, Erik Vaaler, Xinwei Wang, 2018, "Thermal Conductivity of SiC Microwires: Effect of Temperature and Structural Domain Size Uncovered by 0 K limit Phonon Scattering," Ceramics International, Vol. 44, 11218-11224.

  74. Pengyu Yuan, Hong Tan, Ridong Wang, Tianyu Wang, Xinwei Wang, 2018, "Very Fast Hot Carrier Diffusion in Unconstrained MoS2 on Glass Substrate: Discovered by Picosecond ET-Raman," RSC Advances, Vol. 8, 12767-12778. (Supporting information)

  75. Yuzhou Wang, David H. Hurley, Erik P. Luther, Miles F. Beaux II, Douglas R. Vodnik, Reuben J. Peterson, Bryan L. Bennett, Igor O. Usov, Pengyu Yuan, Xinwei Wang, and Marat Khafizova, 2018, "Characterization of ultralow thermal conductivity in anisotropic pyrolytic carbon coating for thermal management applications," Carbon, Vol. 129, pp. 476-485.

  76. Meng Han, Jing Liu, Yangsu Xie, and Xinwei Wang, 2018, "Sub-um c-axis Structural Domain Size of Graphene Paper Uncovered by Low-momentum Phonon Scattering," Carbon, Vol. 126, pp. 532-543.

  77. Yangsu Xie, Bowen Zhu, Jing Liu, Zaoli Xu, Xinwei Wang, 2018, "Thermal Reffusivity: Uncovering Phonon Behavior, Structural Defects, and Domain Size," Frontiers in Energy, Vol. 12, pp. 143-157.

  78. Pengyu Yuan, Ridong Wang, Hong Tan, and Xinwei Wang, 2017, "Energy Transport State Resolved Raman for Probing Interface Energy Transport and Hot Carrier Diffusion in Few-Layered MoS2," ACS Photonics, Vol. 4, pp. 3115-3129 (Supporting Information).

  79. Meng Han, Pengyu Yuan, Jing Liu, Shuyao Si, Xiaolong Zhao, Yanan Yue, Xinwei Wang, Xiangheng Xiao, 2017, "Interface Energy Coupling between b-tungsten Nanofilm and Few-layered Graphene," Scientific Reports, 7, 12213 (Supplementary materials).

  80. Wang Da Qu, Jing Liu, Yuan Xue, Xinwei Wang, Xianglan Bai, 2017, "Potential of producing carbon fiber from biorefinery corn stover lignin with high ash content," Journal of Applied Polymer Science, 134, 45736.

  81. Tianyu Wang, Jing Liu, Biao Xu, Ridong Wang, Pengyu Yuan, Meng Han, Shen Xu, Yangsu Xie, Yue Wu, and Xinwei Wang, 2017, "Identification of Crystalline Orientation of Black Phosphorus by Optothermal Raman Spectroscopy," ChemPhysChem, DOI: 10.1002/cphc.201700788R1, 18, 1-8.

  82. Ridong Wang, Pengyu Yuan, Meng Han, Shen Xu, Tianyu Wang, and Xinwei Wang, 2017, "Asymmetry of Raman scattering by structure variation in space," Optics Express, Vol. 25, 18378.

  83. Bowen Zhu, Jing Liu, Tianyu Wang, Meng Han, Shah Vallopilly, Shen Xu, and Xinwei Wang, 2017 "Novel Polyethylene Fibers of Very High Thermal Conductivity Enabled by Amorphous Restructuring," ACS Omega, 2, 3931−3944, DOI: 10.1021/acsomega.7b00563. (Supporting 1, Supporing 2, Supporting 3)

  84. Tianyu Wang, Ridong Wang, Pengyu Yuan, Shen Xu, Jing Liu, and Xinwei Wang, 2017, "Interfacial Thermal Conductance between Mechanically Exfoliated Black Phosphorus and SiOx: Effect of Thickness and Temperature," Advanced Materials Interfaces, 1700233, DOI: 10.1002/admi.201700233. (Supporting Info)

  85. Jing Liu, Wangda Qu, Yangsu Xie, Bowen Zhu, Tianyu Wang, Xianglan Bai, and Xinwei Wang, 2017, "Thermal Conductivity and Annealing Effect on Structure of Lignin-based Microscale Carbon Fibers," Carbon, Vol. 121, pp. 35-47.

  86. Pengyu Yuan, Jing Liu, Ridong Wang, and Xinwei Wang, 2017, "Hot Carrier Diffusion Coefficient of Sub-10 nm Virgin MoS2: Uncovered by Non-contact Optical Probing," Nanoscale, 9, 6808.

  87. Murat Kadir, Xinwei Wang, Bowen Zhu, Jing Liu, Duane Harland, and Crisan Popescu, 2017, "The Structure of the "Amorphous" Matrix of Keratins," Journal of Structural Biology, 198, 116-123.

  88. Yanan Yue, Jingchao Zhang, Yangsu Xie, Wen Chen, and Xinwei Wang, 2017, "Energy Coupling across Low-dimensional Contact Interfaces at the Atomic Scale," International Journal of Heat and Mass Transfer, Vol. 110, 827-844.

  89. Bolin Chen, Suprem R. Das, Wei Zheng, Bowen Zhu, Biao Xu, Sungbum Hong, Chenghan Sun, Xinwei Wang, Yue Wu and Jonathan C. Claussen, 2017, "Inkjet Printing of Single Crystalline Bi2Te3 Thermoelectric Nanowire Networks," Advanced Electronic Materials, 1600524, COI: DOI: 10.1002/aelm.201600524.

  90. Chenghao Deng, Yanming Sun, Lujun Pan, Tianyu Wang, Yangsu Xie, Jing Liu, Bowen Zhu and Xinwei Wang, 2016, "Thermal Diffusivity of Single Carbon Nanocoil: Uncovering the Correlation with Temperature and Domain Size," ACS Nano, Vol. 10, 9710−9719, DOI: 10.1021/acsnano.6b05715.

  91. Shuyao Si, Wenqing Li, Xiaolong Zhao, Meng Han, Yanan Yue, Xudong Zheng, Wenjing Qin, Xingang Zhang, Wei Wu, Xinwei Wang, Xianghen Xiao, and Changzhong Jiang, 2017, "Significant radiation tolerance and moderate reduction in thermal transport of tungsten nanofilm by inserting monolayer graphene," Advanced Materials,  Vol. 29, 1604623.

  92. Pengyu Yuan, Chong Li, Shen Xu, Jing Liu, Xinwei Wang, 2016, "Interfacial Thermal Conductance between Few to Tens of layered-MoS2 and c-Si: Effect of MoS2 thickness," Acta Materialia, 122, pp. 152-165.

  93. Zhe Cheng, Meng Han, Pengyu Yuan, Shen Xu, Baratunde A. Cola, Xinwei Wang, 2016, "Strongly Anisotropic Thermal and Electrical Conductivities of Self-assembled Silver Nanowire Network," RSC Advances, 6, 90674.

  94. Yangsu Xie, Pengyu Yuan, Tianyu Wang, Nastaran Hashemi, Xinwei Wang, 2016, "Switch on the High Thermal Conductivity of Graphene Paper," Nanoscale, Vol. 8, 17581, DOI: 10.1039/c6nr06402g.

  95. Huan Lin, Hua Dong, Shen Xu, Xinwei Wang, Jingkui Zhang, Yongchun Wang, 2016, "Thermal Transport in Graphene Fiber Fabricated by Wet-spinning Method," Materials Letters,  Vol. 183, 147-150, doi:10.1016/j.matlet.2016.07.092,

  96. Jing Liu, Tianyu Wang, Shen Xu, Pengyu Yuan, Xu Xu, Xinwei Wang, 2016, "Thermal Conductivity of Giant Mono to Few-layered CVD Graphene Supported on Organic Substrate," Nanoscale, 8, 10298.

  97. Changzheng Li, Shen Xu, Yanan Yue, Bing Yang, Xinwei Wang, 2016, "Thermal Characterization of Carbon Nanotube Fiber by Time-Domain Differential Raman," Carbon, Vol. 103, 101-108.

  98. Chong Li, Lijun Zhang, Yan Li, and Xinwei Wang, 2016, "Material Behavior under Extreme Domain Constraint in Laser-assisted Surface Nanostructuring," Physics Letters A, Vol. 380, 753-763, DOI: 10.1016/j.physleta.2015.12.001.

  99. Tianyu Wang, Shen Xu, David H. Hurley, Yanan Yue, and Xinwei Wang, 2016, "Frequency-resolved Raman for Transient Thermal Probing and Thermal Diffusivity Measurement," Optics Letters, Vol. 41, 80-83, DOI: 10.1364/OL.41.000080.

  100. Jing Liu, Zaoli Xu, Zhe Cheng, Shen Xu, and Xinwei Wang, 2015, "Thermal Conductivity of Ultra-high Molecular Weight Polyethylene Crystal: Defect-effect Uncovered by 0 K limit Phonon Diffusion," ACS Applied Materials and Interfaces, Vol. 7, 27279−27288, DOI: 10.1021/acsami.5b08578.

  101. Haiyu Fang, Je-Hyeong Bahk, Tianli Feng, Zhe Cheng, Amr M. S. Mohammed, Xinwei Wang, Xiulin Ruan, Ali Shakouri, and Yue Wu, 2016, "Thermoelectric properties of solution-synthesized n-type Bi2Te3 nanocomposites modulated by Se: An experimental and theoretical study," Nano Research, Vol. 9, 117-127, DOI 10.1007/s12274-015-0892-x.

  102. Wei Xiong, Yunsheng Zhou, W.J. Hou, Thomas Guillemet, jean-francois silvain, Yang Gao, Michel Lahaye, Eric Lebraud, Shen Xu, Xinwei Wang, David A. Cullen, Karren L More, Lan Jiang and Yong-Feng Lu, 2015, "Solid-state graphene formation via nickel carbide intermediate phase" RSC Advances, 5, 99037, DOI: 10.1039/c5ra18682j.

  103. Yangsu Xie, Shen Xu, Zaoli Xu, Hongchao Wu, Cheng Deng, Xinwei Wang, 2016, "Interface-mediated extremely low thermal conductivity of graphene aerogel," Carbon, 98, 381-390. DOI: 10.1016/j.carbon.2015.11.033.

  104. Ze Liu, Yibo Gao, Fei Liang, Benxin Wu, Jihua Gou, Martin Detrois, Sammy Tin, Ming Yin, Philip Nash, Xiaoduan Tang and Xinwei Wang, 2016, "Fabrication of Carbon Nanotube - Chromium Carbide Composite through Laser Sintering," Lasers in Manufacturing and Materials Processing, Volume 3, pp 1-8, DOI: 10.1007/s40516-015-0019-y.

  105. Yanming Sun, Haiyu Fang, Lujun Pan, Meng Han, Shen Xu, Xinwei Wang, Biao Xu, Yue Wu, 2015, "Impact of Surface-Bound Small Molecules on the Thermoelectric Property of Self-Assembled Ag2Te Nanocrystal Thin Films," Nano Letters, 15, 3748−3756.

  106. Yangsu Xie, Zaoli Xu, Shen Xu, Zhe Cheng, Nastaran Hashemi, Cheng Deng, and Xinwei Wang, 2015, "Defect level and ideal thermal conductivity of graphene uncovered by residual thermal reffusivity at 0 K limit," Nanoscale, 7, 10101 - 10110, DOI: 10.1039/c5nr02012c.

  107. Zhe Cheng, Longju Liu, Shen Xu, Meng Lu, Xinwei Wang, 2015, "Temperature Dependence of Electrical and Thermal Conduction in Single Silver Nanowire," Scientific Reports, 5:10718 | DOI: 10.1038/srep10718.

  108. Shen Xu, Tianyu Wang, David Hurley, Yanan Yue, and Xinwei Wang, 2015, "Development of time-domain differential Raman for transient thermal probing of materials," Optics Express, Vol. 23, No. 8 | DOI:10.1364/OE.23.010040, 10040.

  109. Jing Liu, Xinwei Wang, 2015, "Characterization of Thermal Transport in One-Dimensional Microstructures Using Johnson Noise Electro-Thermal Technique," Applied Physics A, 119, 871-879, DOI 10.1007/s00339-015-9056-9.

  110. Yanan Yue, Jingchao Zhang, Xiaoduan Tang, Xinwei Wang, 2015, "Thermal Transport across Atomic-Layer Material Interfaces," Nanotechnology Reviews, invited review,  Volume 4, Issue 6, Pages 533-555.

  111. Zhe Cheng, Zaoli Xu, Shen Xu, and Xinwei Wang, 2014, "Temperature Dependent Behavior of Thermal Conductivity of Sub-5 nm Ir film: Defect-electron Scattering Quantified by Residual Thermal Resistivity," Journal of Applied Physics, 117, 024307 (2015); doi: 10.1063/1.4905607.

  112. Zhe Cheng, Zaoli Xu, Lei Zhang, Xinwei Wang, 2014, "Thermophysical Properties of Lignocellulose: A Cell-scale Study down to 41K," PLOS ONE, DOI:10.1371/journal.pone.0114821.

  113. Zaoli Xu, Xinwei Wang, Huaqing Xie, 2014, "Promoted Electron Transport and Sustained Phonon Transport by DNA down to 10 K," Polymer, Vol. 55, pp. 6373-6380,  http://dx.doi.org/10.1016/j.polymer.2014.10.016.

  114. Shen Xu, Xinwei Wang, 2014, "Across-plane Thermal Characterization of Films Based on Amplitude-frequency Profile in Photothermal Technique," AIP Advances, 4, 107122.

  115. Chong Li, Kelsey Burney, Kevin Bergler, Xinwei Wang, 2014, "Structural Evolution of Nanoparticles under Picosecond Stress Wave Consolidation," Computational Materials Science, Vol. 95, 74-83.

  116. Huan Lin, Shen Xu, Yu-Qing Zhang, Xinwei Wang, 2014, "Electron Transport and Bulk-like Behavior of Wiedemann-Franz Law for Sub-7 nm-thin Iridium Films on Silkworm Silk," ACS Applied Materials and Interfaces, 6, 11341−11347.

  117. Chong Li, Jianmei Wang, Xinwei Wang, 2014, "Shock Wave Confinement-induced Plume Temperature Increase in Laser-induced Breakdown Spectroscopy," Physics Letters A, Vol. 378, 3319-3325, DOI: 10.1016/j.physleta.2014.06.049.

  118. Xiaoduan Tang, Shen Xu, and Xinwei Wang, 2014, "Corrugated Epitaxial Graphene/SiC Interface: Photon Excitation and Probing," Nanoscale, Vol. 6, 8822, DOI: 10.1039/c4nr00410h.

  119. Guoqing Liu, Shen Xu, Ting-Ting Cao, Huan Lin, Xiaoduan Tang, Yu-Qing Zhang, Xinwei Wang, 2014, "Thermally Induced Increase in Energy Transport Capacity of Silkworm Silks," Biopolymers, Vol. 101, 1029-1037.

  120. Shen Xu, Zaoli Xu, James Starrett, Cheryl Hayashi, Xinwei Wang, 2014, "Cross-plane Thermal Transport in Micrometer-thick Spider Silk Films," Polymer, 55,1845-1853.

  121. Xiaoduan Tang, Shen Xu, Jingchao Zhang, and Xinwei Wang, 2014, "Five Orders of Magnitude Reduction in Energy Coupling across Corrugated Graphene/Substrate Interfaces," ACS Applied Materials and Interfaces, Vol. 6, 2809-2818, DOI: 10.1021/am405388a.

  122. Zaoli Xu, Shen Xu, Xiaoduan Tang, and Xinwei Wang, 2014, "Energy Transport in Crystalline DNA Composites," AIP Advances, 4, 017131.

  123. Guoqing Liu, Huan Lin, Xiaoduan Tang, Kevin Bergler, Xinwei Wang, 2014, "Characterization of Thermal Transport in One-Dimensional Solid Materials," Journal of Visualized Experiments, (83), e51144, doi:10.3791/51144. [open access] [13734 views by scholars from 2447 institutions to 6/28/2021]

  124. Mina Bastwros, Gap-Yong Kim, Can Zhu, Kun Zhang, Shiren Wang, Xiaoduan Tang, and Xinwei Wang, 2014, "Effect of Ball Milling on Graphene Reinforced Al6061 Composite Fabricated by Semi-solid Sintering," Composites B, 60, 111-118.

  125. Jingchao Zhang, Yongchun Wang, Xinwei Wang, 2013, "Rough Contact Not Always Bad for Interfacial Energy Coupling," Nanoscale, communications, 5, 11598.

  126. Jingchao Zhang, Xinwei Wang, Huaqing Xie, 2013, "Co-existing Heat Currents in Opposite Directions in Graphene Nanoribbons," Physics Letters A, Vol. 377, 2970-2978, DOI: 10.1016/j.physleta.2013.09.016

  127. Huan Lin, Shen Xu, Xinwei Wang, and Ning Mei, 2013, "Significantly Reduced Thermal Diffusivity of Free-Standing 2-layer Graphene in Graphene Foam," Nanotechnology, 24, 415706.

  128. Wei Yu, Guoqing Liu, Jianmei Wang, Xiaopeng Huang, Huaqing Xie and Xinwei Wang, 2013, "Significantly Reduced Anisotropic Phonon Thermal Transport in Graphene Oxide Films," Synthesis and Reactivity in Inorganic, Metal-Organic, and Nano-Metal Chemistry, 43:1197-1205.

  129. Shen Xu, Xiaoduan Tang, Yanan Yue, and Xinwei Wang, 2013, "Sub-micron Imaging of Sub-surface Nanocrystalline Structure in Silicon," Journal of Raman Spectroscopy, 44, 1523-1528.

  130. Xiaoduan Tang, Shen Xu, and Xinwei Wang, 2013, "Thermal probing in single microparticle and microfiber induced near-field laser focusing," Optics Express, Vol. 21, No. 12, 14303-14315.

  131. Chong Li, Jingchao Zhang, Xinwei Wang, 2013, "Phase Change and Stress Wave in Picosecond Laser-material Interaction with Shock Wave Formation," Applied Physics A, Vol. 112, pp. 677-687, DOI 10.1007/s00339-013-7770-8.

  132. Huan Lin, Shen Xu, Chong Li, Hua Dong, Xinwei Wang, 2013, "Thermal and Electrical Conduction in 6.4 nm thin Gold Films," Nanoscale, Communication, 5, 4652.

  133. Xiaoduan Tang, Shen Xu and Xinwei Wang, 2013, "Nanoscale Probing of Thermal, Stress, and Optical Fields under Near-Field Laser Heating," PLOS ONE, 8(3): e58030. doi:10.1371/journal.pone.0058030.

  134. Xuhui Feng, Guoqing Liu, Shen Xu, Huan Lin and Xinwei Wang, 2013, "3-Dimensional Anisotropic Thermal Transport in Microscale Poly(3-hexylthiophene) thin Films," Polymer, 54, 1887-1895.

  135. Jingchao Zhang, Xinwei Wang, and Huaqing Xie, 2013, "Phonon energy inversion in graphene during transient thermal transport," Physics Letters A, 377: 721-726.

  136. Jingchao Zhang, Xinwei Wang, 2013, "Thermal transport in bent graphene nanoribbons," Nanoscale, 5, 734.

  137. Huan Lin, Shen Xu, Xinwei Wang, Ning Mei, 2013, "Thermal and Electrical Conduction in Ultra-thin Metallic Films: 7 nm down to Sub-nm Thickness," Small, Vol. 9, 2585-2594, DOI: 10.1002/smll.201202877.

  138. S. Achaya, J. Alvarado, D. Bannerjee, W. E. Billups, G. Chen, B. A. Cola, W. Cross, E. Duke, S. Graham Jr., H. He, H. Hong, S. Jin, S. Karna, C. Li, C. H. Li, J. Li, G. P. Peterson, J. A. Puszynski, J. Routbort, J. Shan, D. Shin, A. Smirnova, P. Smith, X. Wang, A. Waynick, R. White, X. Yan, W. Yu, 2013, "Report on Carbon Nano Material Workshop: Challenges and Opportunities," Nanoscale and Microscale Thermophysical Engineering, 17: 10-24.

  139. Nathan Van Velson, Xinwei Wang, 2013, "Characterization of Thermal Transport across Single-point Contact between Micro-wires," Applied Physics A, 110:403-412.

  140. Guoqing Liu, Xiaopeng Huang, Yuanjing Wang, Yuqing Zhang, Xinwei Wang, 2012, "Thermal transport in single silkworm silks and the behavior under stretching," Soft Matter, Vol. 8, pp. 9792-9799.

  141. Ming He , Jing Ge , Zhiqun Lin , Xuhui Feng , Xinwei Wang , Hongbin Lu , Yuliang Yang and  Feng Qiu, 2012, "Thermopower Enhancement in Conducting Polymer Nanocomposites via Carrier Energy Scattering at Organic/Inorganic Semiconductor Interface," Energy & Environmental Science, Vol. 5, 8351.

  142. Xiaoduan Tang, Yanan Yue, Xiangwen Chen, and Xinwei Wang, 2012, "Sub-wavelength temperature probing in near-field laser heating by particles," Optics Express, Vol. 20, pp. 14152-14167.

  143. Xuhui Feng, Xiaopeng Huang and Xinwei Wang, 2012, "Thermal conductivity and secondary porosity of single anatase TiO2 nanowire," Nanotechnology, 23, 185701.

  144. Xiaopeng Huang, Guoqing Liu, and Xinwei Wang, 2012, "New Secrets of Spider Silk: Exceptionally High Thermal Conductivity and Its Abnormal Change under Stretching," Advanced Materials, Vol. 24, 1482-1, DOI: 10.1002/adma.201104668.

  145. Xuhui Feng, Xiaopeng Huang and Xinwei Wang, 2012, "Nonlinear Effects in Transient Electro-Thermal Characterization of Anatase TiO2 nanowires," Review of Scientific Instruments, 84, 044901.

  146. Yanan Yue, Xinwei Wang, 2012, "Nanoscale Thermal Probing," Nano Reviews, invited review, Vol. 3, 11586.

  147. Jingchao Zhang, Xiaopeng Huang, Yanan Yue, Jianmei Wang, Xinwei Wang, 2011, "Dynamic response of graphene to thermal impulse," Physical Review B, Vol. 84, 235416.

  148. Wei Yu, Huaqing Xie, Xiaopeng Wang, and Xinwei Wang, 2011, "Significant thermal conductivity enhancement for nanofluids containing graphene nanosheets," Physics Letters A., Vo. 375, pp. 1323-1328.

  149. Xiangwen Chen and Xinwei Wang, 2011, "Microscale Spatially Resolved Thermal Response of Si Nano-tip to Laser Irradiation," Journal of Physical Chemistry C, 115, 22207-22216.

  150. Yanan Yue and Xinwei Wang, 2011, "Review on Raman-based Thermal Characterization and Analysis," Journal of Shanghai Second Polytechnic University, Invited review, Vol. 28, pp. 183-191.

  151. Yanan Yue, Jingchao Zhang, and Xinwei Wang, 2011, "Micro/Nanoscale Spatial Resolution Temperature Probing for Interface Thermal Characterization between Epitaxial Graphene and 4H-SiC," Small, 7, No. 23, 3324-3333.

  152. Yanan Yue, Xiangwen Chen, and Xinwei Wang, 2011, "Non-Contact Sub-10 nm Temperature Measurement in Near-field Laser Heating," ACS Nano, Vol. 5, pp. 4466-4475.

  153. Xuhui Feng and Xinwei Wang, 2011, "Thermophysical Properties of Free-Standing Micrometer-thick Poly (3-hexylthiophene) (P3HT) Films," Thin Solid Films, Vol. 519, pp. 5700-5705.

  154. Xiaopeng Huang, Jianmei Wang, Gyula Eres, and Xinwei Wang, 2011, "Thermophysical properties of multi-wall carbon nanotube bundles at elevated temperatures up to 830 K," Carbon, Vol. 49, pp. 1680-1691.

  155. Xiangwen Chen and Xinwei Wang, 2011, "Near-field Thermal Transport in Nanotip Under Laser Irradiation," Nanotechnology, Vol. 22, p. 075204.

  156. Xuhui Feng, Xiangwen Chen, and Xinwei Wang, 2011, "Thermophysical Properties of Thin Films Composed of Anatase TiO2 Nanofibers," Acta Materialia, Vol. 59, pp. 1934-1944.

  157. Tao Wang, Xinwei Wang, Zhongyang Luo, Mingjiang Ni, and Kefa Cen, 2011, "Mechanisms of viscosity increase for nanocolloidal dispersions," Journal of Nanoscience and Nanotechnology, Vol. 11, pp. 3141-3150.

  158. Wei Yu, Huaqing Xie, Xinwei Wang, Xiaoping Wang, 2011, "Highly Efficient Method for Preparing Homogeneous and Stable Colloids Containing Graphene Oxide," Nanoscale Research Letters, Vol. 6, P. 47, DOI 10.1007/s11671-010-9779-7.

  159. Xiaopeng Huang, Xinwei Wang, and Bruce Cook, 2010, "Coherent nanointerface in thermoelectric material," Journal of Physical Chemistry C, Vol. 114, pp. 21003-21012.

  160. Yanan Yue, Xiaopeng Huang, and Xinwei Wang, 2010, "Thermal Transport in Multiwall Carbon Nanotube Buckypapers," Physics Letters A, Vol. 374, pp. 4144-4151.

  161. Xiangwen Chen, Yuping He, Yiping Zhao and Xinwei Wang, 2010, "Thermophysical properties of hydrogenated vanadium-doped magnesium porous nanostructures," Nanotechnology, Vol. 21, 055707.

  162. Liying Guo, Jun Wang, Zhiqun Lin, Sobies Gacek, and Xinwei Wang, 2009, "Anisotropic Thermal Transport in Highly Ordered TiO2 Nanotube Arrays," Journal of Applied Physics, Vol. 106, 123526. Also been selected for the January 11, 2010 issue of Virtual Journal of Nanoscale Science & Technology.

  163. S. Gacek and X. Wang, 2009, "Plume Splitting in Pico-second Laser-material Interaction under the Influence of Shock Wave," Physics Letters A, Vol. 373, pp. 3342-3349.

  164. Y. Yue, G. Eres, X. Wang, L. Guo, 2009, "Characterization of Thermal Transport in Micro/Nanoscale Wires By Steady-State Electro-Raman-Thermal Technique," Applied Physics A, Rapid communications, Vol. 97, pp. 19-23.

  165. X. Huang, X. Huai, S. Liang, and X. Wang, 2009, "Thermal transport in Si/Ge nanocomposites," Journal of Physics D: Applied Physics, Vol. 42, 095416.

  166. S. Gacek and X. Wang, 2009, "Dynamics Evolution of Shock Wave in Laser-material Interaction," Applied Physics A, Vol. 94, pp. 675-690.

  167. S. Gacek and X. Wang, 2008, "Secondary Shock Wave in Laser-material Interaction," Journal of Applied Physics, Communications, Vol. 104, 126101.

  168. L. Guo and X. Wang, 2008, "Effect of Molecular Weight and Density of Ambient Gas on Shock Wave in Laser-induced Surface Nanostructuring," Journal of Physics D: Applied Physics, Vol. 42, 015307.

  169. L. Zhang and X. Wang, 2008, "Hybrid Atomistic-macroscale Modeling of Long-time Phase Change in Nanosecond Laser-material Interaction," Applied Surface Science, Vol. 255, pp. 3097-3103.

  170. L. Tiang and X. Wang, 2008, "Pulse Laser-induced Rapid Surface Cooling and Amorphization," Japanese Journal of Applied Physics, Vol. 47, pp. 8113-8119.

  171. T. Wang, X. Wang, Y. Zhang, L. Liu, L. Xu, Y. Liu, L. Zhang, Z. Luo, and K. Cen, 2008, "Effect of ZPO Concentration on the Thermophysical Properties of Hybrid Organic-Inorganic Films," Journal of Applied Physics, Vol. 104, pp. 013528.

  172. T. Wang, X. Wang, Z. Luo, and K. Cen, 2008, "Physics behind the oscillation of pressure tensor autocorrelation function for nanocolloidal dispersions," Journal of Nanoscience and Nanotechnology, rapid communications Vol. 8, pp. 1-5.

  173. J. Guo, X. Wang, David B. Geohegan, Gyula Eres, and Cecile Vincent, 2008, "Development of Pulsed Laser-assisted Thermal Relaxation Technique for Thermal Characterization of Microscale Wires," Journal of Applied Physics, Vol. 103, pp. 113505. Also selected for the June 16, 2008 issue of Virtual Journal of Nanoscale Science and Technology.

  174. X. Feng and X. Wang, 2008, "Effects of Laser Fluence on Near-field Surface Nanostructuring," Applied Surface Science, Vol. 254, pp. 4201-4210.

  175. L. Zhang and X. Wang, 2008, "Dynamic Structure and Mass Penetration of Shock Wave in Picosecond Laser-Material Interaction," Japanese Journal of Applied Physics, Vol. 47, pp. 964-968.

  176. X. Wang, Z. Huang, T. Wang, Y. W. Tang, X. C. Zeng, 2008, "Structure and thermophysical properties of single-wall Si nanotubes," Physica B, Vol. 403, pp. 2021-2028.

  177. J. Guo, X. Wang, David B. Geohegan, Gyula Eres, 2008, "Thermal Characterization of Multi-Wall Carbon Nanotube Bundles Based on Pulsed Laser-Assisted Thermal Relaxation," Functional Materials Letters, Vol. 1, pp. 71-76.

  178. H. Xie, A. Cai, and X. Wang, 2007, "Thermal diffusivity and conductivity of multiwalled carbon nanotube arrays," Physics Letters A, Vol. 369, iss. 1-2, pp. 120-123.

  179. J. Guo, X. Wang, L. Zhang, and T. Wang, 2007, "Transient thermal characterization of micro/submicroscale polyacrylonitrile wires," Applied Physics A, Rapid Communications, Vol. 89, pp. 153-156.

  180. Z. Zhong, X. Wang, and X. Feng, 2007, "Effects of pressure and temperature on sp3 fraction in diamond-like carbon materials," Journal of Materials Research, Vol. 22, pp. 2770-2775.

  181. X. Feng and X. Wang, 2007, "Nanodomain Shock Wave in Near-field Laser-material Interaction," Physics Letters A, Vol. 369, pp. 323-327.

  182. J. Guo, X. Wang, and T. Wang, 2007, "Thermal characterization of microscale conductive and nonconductive wires using transient electrothermal technique," Journal of Applied Physics, Vol. 101, 063537.

  183. T. Wang, X. Wang, J. Guo, Z. Luo, and K. Cen, 2007, "Characterization of thermal diffusivity of micro/nanoscale wires by transient photo-electro-thermal technique," Applied Physics A, Vol. 87, pp. 599-605, Invited Paper.

  184. J. Hou, X. Wang, P. Vellelacheruvu, J. Guo, C. Liu and H. Cheng, 2006, "Thermal characterization of single-wall carbon nanotube bundles using the self-heating 3w technique," Journal of Applied Physics, Vol. 100, 124314, also selected for  the January 15, 2007 issue of Virtual Journal of Nanoscale Science & Technology.

  185. Y. Tang, Z. Huang,  X. Wang, and X. Zheng, 2006, "Molecular Dynamics Simulations of Thermal Conductivity of Silicon Nanotubes," Journal of Computational and Theoretical Nanoscience, Vol. 3, pp. 824-829. 

  186. J. Hou, X. Wang and L. Zhang, 2006, "Thermal Characterization of Submicron Polyacrylonitrile Fibers Based on Optical Heating and Electrical Thermal Sensing," Applied Physics Letters, Vol. 89, 152504, also selected for the October 23, 2006 issue of Virtual Journal of Nanoscale Science & Technology.

  187. Y. Xu, Y. Zhang, E. Suhir, and X. Wang, 2006, "Thermal properties of carbon nanotube array used for integrated circuit cooling," Journal of Applied Physics, Vol. 100, 074302, also selected for the October 16, 2006 issue of Virtual Journal of Nanoscale Science & Technology.

  188. J. Shi, Y. Lu, K. Yi, Y. Lin, S. Liou, J. Hou and X. Wang, 2006, "Direct Synthesis of Single-walled Carbon Nanotubes Bridging Metal Electrodes by Laser-assisted Chemical Vapor Deposition," Applied Physics Letter, Vol. 89, 083105.

  189. Z. Zhong and X. Wang, 2006, "Thermal transport in nanocrystalline materials," Journal of Applied Physics, Vol. 100, 044310.

  190. J. Hou, X. Wang and J. Guo, 2006, "Thermal characterization of micro/nanoscale conductive and non-conductive wires based on optical heating and electrical thermal sensing," Journal of Physics D: Applied Physics, Vol. 39, 3362-3370.

  191. J. Hou and X. Wang, 2006, "Development of photothermal-resistance technique and its application to thermal diffusivity measurement of single-wall carbon nanotube bundles," Applied Physics Letters, Vol. 88, 181910, also selected for the May 22, 2006 issue of Virtual Journal of Nanoscale Science & Technology.

  192. J. Shi, Y. Lu, K. F. Tan, and X. Wang, 2006, "Catalytical growth of carbon nanotubes/fibers from nanocatalysts prepared by laser pulverization of nickel sulfate," Journal of Applied Physics, Vol. 99, pp. 024312: 1-7.

  193. X. Wang and Y. Lu, 2005, "Solidification and Epitaxial Re-growth in Surface Nanostructuring with Laser-assisted Scanning Tunneling Microscope," Journal of Applied Physics, Vol. 98, pp. 114304: 1-10.

  194. Wang, X., 2005, "Large-scale Molecular Dynamics Simulation of Surface Nanostructuring with Laser-assisted Scanning Tunneling Microscope," Journal of Physics D: Applied Physics, Vol. 38, 1805-1823.

  195. X. Wang, Z. Zhong, J Xu, 2005, "Non-Contact Thermal Characterization of Individual Multi-wall Carbon Nanotubes," Journal of Applied Physics, Vol. 97, pp. 064302:1-5, also selected for the March 14, 2005 issue of Virtual Journal of Nanoscale Science & Technology.

  196. Z. Zhong, X. Wang, and J. Xu, 2004, "Equilibrium Molecular Dynamics Study of Phonon Thermal Transport in Nanomaterials," Numerical Heat Transfer B, Vol. 46, pp. 429-446.

  197. J. Xu and X. Wang, 2004, "Simulation of Ballistic and Non-Fourier Thermal Transport in Ultra-fast Laser Heating," Physica B, Vol. 351, pp. 213-226.

  198. X. Wang, 2004, "Thermal and Thermomechanical Phenomena in Laser Copper Interaction," ASME Journal of Heat Transfer, Vol. 126, pp. 355-364.

  199. X. Wang and X. Xu, 2003, "Nanoparticles Formed in Picosecond Laser Materials Interaction," ASME Journal of Heat Transfer, Vol. 125, pp. 1147-1155.

  200. X. Wang and X. Xu, 2003, "Molecular Dynamics Simulation of Thermal and Thermomechanical Phenomena in Picosecond Laser Material Interaction," International Journal of Heat and Mass Transfer, Vol. 46, pp. 45-53.

  201. X. Wang and X. Xu, 2002, "Molecular Dynamics Simulation of Heat Transfer and Phase Change during Laser Material Interaction," ASME Journal of Heat Transfer, Vol. 124, pp. 265-274.

  202. X. Wang and X. Xu, 2002, "Thermoelastic Waves in Metal Induced by Ultrashort Laser Pulses," Journal of Thermal Stress, Vol. 25, pp. 457-474.

  203. X. Wang, H. Hu and X. Xu, 2001, "Photo-Acoustic Measurement of Thermal Conductivity of Thin Films and Bulk Materials," ASME Journal of Heat Transfer, Vol. 123, pp. 138-144.

  204. X. Wang and X. Xu, 2001, "Thermoelastic Wave Induced by Pulsed Laser Heating," Applied Physics A, Vol. 73, pp. 107-114.

  205. X. Wang, X. Xu and S. U. S. Choi, 1999, "Thermal Conductivity of Nanoparticle-Fluid Mixture," AIAA. Journal of Thermophysics and Heat Transfer, Vol. 13, No. 4, pp. 474-480.

  206. H. Hu, X. Wang and X. Xu, 1999, "Generalized Theory of Photo Acoustic Effect with a Multilayer Material," Journal of Applied Physics, Vol. 86, No. 7, pp. 3953-3958.

  207. R. Taylor, X. Wang, and X. Xu, 1999, "Thermophysical Properties of Thermal Barrier Coatings," Surface and Coating Technology, Vol. 120-121, pp. 89-95.


 

 

 

Laboratory Communications

  • Prof. Xinwei Wang was awarded the "Professor of the Year" Award for 2023-2024.

  • Our paper "Observing grain boundary-induced phonons mean free path in highly aligned SWCNT bundles by low-momentum phonon scattering" was selected to the "Best of physics and engineering" collection of Cell Reports Physical Science for 2023. In this work, using our FET-Raman technique, we are able to measure the thermal conductivity of a SWCNT bundle of few nm thickness down to 77 K. This probably is the most accurate measurement to date. Also based on our thermal reffusivity theory, for the first time, the axial-direction grain size of SWCNTs is characterized to be 46~62 nm.

  • (Nov. 3, 2023) Our paper "Thermophysical properties of 1D materials: transient characterization down to atomic level" was selected as the coverpage of Journal of University of Science and Technology of China.

  • (April 13, 2023) Nicholas Hunter won the Iowa State University Research Excellence Award for his great accomplishment in energy transport in 2D materials, optical-acoustic phonon temperature distinguishing and measurement, and characterization of electron-hole radiative recombination.

  • (March 31, 2023) Our paper "Robust and high-sensitivity thermal probing at the nanoscale based on resonance Raman ratio (R3)" received the 2022 Best Paper Award of Int. J. of Extreme Manufacturing. Congratulate all the authors on this great work!

  • (November 27, 2022) Our paper "Laser photoreduction of graphene aerogel microfibers: dynamic electrical and thermal behaviors" was selected as the cover feature of ChemPhysChem (e202200417, 2022).

  • (November 7, 2022) Our paper "Robust and high-sensitivity thermal probing at the nanoscale based on resonance Raman ratio (R3)" was selected as the cover feature of Int. J. of Extreme Manufacturing (Vol. 4, No. 3).

  • (September 28, 2022) Our paper "Critical problems faced in Raman-based energy transport characterization of nanomaterials" was selected as the back cover of Issue 37, Volume 24, Physical Chemistry Chemical Physics (2022).

  • (September 20, 2022) Our paper on high-sensitivity temperature measurement based on resonance Raman ratio (R3) was selected in Features & Articles, and was also reported by Physics.org:

https://www.eurekalert.org/news-releases/965300

https://iop.altmetric.com/details/130239634

  • (April 29, 2022) Prof. Xinwei Wang was named the Anson Marston Distinguished Professorship in Engineering. "The title of Distinguished Professor, first awarded in 1956, is Iowa State's highest academic honor." Appreciate all the great contributions of the lab members over the last 20 years.

  • (April 7, 2022) Hamidreza Zobeiri was awarded the Zaffarano Prize, one of the highest graduate student research awards at ISU. Hamidreza has done some very pioneering and breakthrough works on energy transport in 2D materials, solid-liquid interface energy transport, and optical-acoustic phonon thermal nonequilibrium. Congratulations, Hami!

  • (January 24, 2022) Our paper "Photothermal Phenomenon: Extended Ideas for Thermophysical Properties Characterization" published in Journal of Applied Physics (J. Appl. Phys. 131, 065107, 2022; https://doi.org/10.1063/5.0082014) was selected as Editor's Pick. This paper provides a critical review of extended photothermal ideas for characterizing thermophysical properties, especially at the micro/nanoscale: TPET, PLTR, PLTR2, TD-Raman, FR-Raman, ET-Raman, FET-Raman, Photothermal radiation, photoacoustic and TDTR techniques.

  • (November 18, 2021) Hamidreza Zobeiri won the Iowa State University Research Excellence Award for his tremendous work and great accomplishment on energy transport in 2D materials! Congratulations, Hami!

  • (July 9, 2021) Nathanael Van Velson successfully defended his PhD thesis! Congratulations, Nathan! His dissertation "Raman-based Metrology of Thin Film Systems" reported great advance in both theoretical and experimental studies of Raman scattering in multilayer film systems.

  • (April 27, 2021) Hamidreza Zobeiri and Nick Hunter were selected for the COVID Heroes Awards of Mechanical Engineering for their great work during the pandemic! Congratulations! Thank you very much for the great work, Hami and Nick!

  • (March 19, 2021) Our paper entitled "Thermal Behavior of Materials in Laser-assisted Extreme Manufacturing: Raman-based Novel Characterization" received the Best Paper Award of 2020 from International Journal of Extreme Manufacturing. Congratulations to the authors: Ridong Wang, Shen Xu, and Yanan Yue.

  • (February 5, 2021) Hamidreza Zobeiri was awarded the Brown Graduate Fellowship of Iowa State University. He is among the total 14 graduate students receiving this great award this year. Hamidreza has done a great job in Raman-based thermal probing and characterization to understand the phonon transport in 2D materials. Congratulations, Hami!

  • (May 7, 2019) Ridong Wang received the Iowa State University Research Excellence Award for his great work in Raman spectroscopy to characterize the thermophysical properties of 2D materials.

  • (May 3, 2018) Xinwei Wang won the prestigious ISU Award for Outstanding Achievement in Research. Each year two awards are made university wide. The award recognizes a tenured faculty member who has a national or international reputation for contributions in research and has influenced the research activities of students.

  • (April 13, 2018) Congratulations to my four students that have successfully defended their Ph.D. thesis.

  • Pengyu Yuan on 3/29/2018. His work is focused on development of novel energy transport state-resolved Raman and study of electron and energy transport in MoS2.

  • Bowen Zhu on 4/9/2018. His work is focused on novel structure tailoring and characterization of microfibers: from organic to inorganic.

  • Tianyu Wang on 4/11/2018. His work is focused on studying the interface energy transport and phonon transport within black phosphorus.

  • Meng Han on 4/13/2018. His work in focused on the cross-plane thermal transport of graphene-based structures.

  • (December 7, 2017) It is great to see that two of our group members: Pengyu Yuan and Tianyu Wang were awarded the Iowa State University Research Excellence Award. Pengyu has done a great job in the development of a break-through technology: Energy Transport State-resolved Raman (ET-Raman). He has done pioneering work on conjugated transport of electrons and phonons in 2D materials. Tianyu has done a great job in the development of time-domain differential Raman (ET-Raman) and frequency-resolved Raman (FR-Raman). Also he has developed one of the best technologies to identify the crystalline orientation of 2D materials.

  • (October 20, 2017) We have developed a new anisotropic specific heat theory to precisely interpret the anisotropic thermal conductivity of materials. This theory takes into consideration of propagation direction of phonons when calculating its specific heat for thermal conductivity evaluation. Take the graphite as an example, the theory explains the very long phonon mean free path in the c-axis although the thermal conductivity in this direction is very small. Our prediction agrees very well with past experimental and theoretical mean free path data. Using this theory and our novel experimental characterization of the c-axis thermal reffusivity of graphene paper down to the 0 K limit, we have discovered a very long structure domain size around 234 nm in the c-axis, far above the graphene flake thickness (1.68~2.01 nm) in this graphene paper. It reveals excellent c-axis structure order despite the flexibility of graphene paper. The work has been accepted for publication in Carbon.

  • (October 10, 2017) Our paper published in ChemPhysChem entitled "Identifying the Crystalline Orientation of Black Phosphorus by Using Optothermal Raman Spectroscopy" has been featured on the back cover of the issue 20/2017. (https://doi.org/10.1002/cphc.201701077)

  • (September 12, 2017) Development of a breakthrough Energy Transport State Resolved Raman (ET-Raman). The ET-Raman makes it possible, for the first time, to characterize the interface thermal resistance and hot carrier diffusion coefficient of 2D atomic layer materials without the need of laser absorption data and temperature rise of the material. It eliminates the very large uncertainties introduced by 2D material optical properties variation and temperature rise evaluation. It is expected to have great and long-term impact in Raman-based energy transport studies and hot carrier behavior characterizations in 2D materials. The work has been accepted for publication in ACS Photonics.

  • (August 11, 2017) A new polarized Optothermal Raman technique has been developed in our lab to identify the crystalline orientation of black phosphorus. Past Raman intensity based techniques faces big problems induced by optical interference, which involves the incident laser wavelength, Raman signal wavelength, and sample thickness, and are difficult to provide robust results. Our technique resolves all these issues and is able to provide solid information on crystalline orientation regardless of the sample thickness, Raman laser wavelength, and Raman signal wavelength. The work is accepted for publication in ChemPhysChem. 

  • (July 31, 2017) Remarkable thermal conductivity increase for ultra-high molecular weight polyethylene (UHMW-PE) micro-fibers by amorphous structure tailoring. We have developed a temperature-gradient driven stretching method to align the amorphous structure in high crystallinity UHMW-PE microfibers. At room temperature, its thermal conductivity (k) is increased to 51 W/mK, representing a record-high level for PE fibers. This k is comparable to that of many metals, and will lead to broader applications of UHMW-PE fibers in thermal management with significantly reduced load. Details of the work can be found in our recent publication in ACS Omega [PDF available].

  • (July 7, 2017) First time consideration of hot carrier diffusion in sub-10 nm MoS2 interface Energy Transport. For the first time, we have considered the hot carrier excitation, diffusion and recombination in Raman 2D atomic layer-substrate interface energy coupling study. The hot carrier effect could become significant when the diffusion length is long or laser heating spot size is small. Also we have measured the hot carrier's diffusion coefficient and length directly without mechanical contact (different from the traditional contact electrical method) . This truely reveals the hot carrier diffusion in virgin 2D atomic layer materials. The work has been published in Nanoscale, 2017, 9, 6808. [PDF available]

  • (May 25, 2017). Yangsu Xie has successfully finished her final oral defense of her Ph.D. dissertation. Jing Liu has done her very well on Apr. 6. Congratulations to both of them!

  • (Apr. 20, 2017) Yangsu Xie has won the Iowa State University Research Excellent Award for her remarkable work on carbon nanostructures (graphene foam, graphene aerogel, and graphene paper). During her Ph.D. study, Yangsu has 1) discovered the switchable thermal conductivity of graphene paper, 2) reported the extremely low thermal conductivity of graphene aerogel, and 3) used the thermal reffusivity theory to investigate the defect-phonon scattering in carbon nanostructures and the structure domain size.

  • (Dec. 8, 2016) Jing Liu has won the Iowa State University Research Excellence Award for her excellent work during her Ph.D. study. Jing has done a great job in 1) developing a novel Johnson noise technology for measuring the thermal conductivity of micro/nanoscale materials, 2) studying the crystalline structure and grain size in ultra-high molecular weight polyethylene fibers based on low-momentum phonon scattering using the residual thermal reffusivity at the 0 K limit, and 3) for the first time characterizing the thermal conductivity of mono- to fewlayered graphene at the mm size level. 

  • (April 7, 2016) Shen Xu has won the prestigious 2016 Zaffarano Prize for excellent graduate research at Iowa State University. This prize is to recognize superior performance in publishable research by an ISU graduate Student.

  • Our work on Frequency-resolved Raman (FR-Raman) published in Optics Letters has been selected as the "10 highlighted papers for December 2015" by the OSA Applied Spectroscopy Group.

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