| 2025 | Top |
| 249. | Z.L. Luo, H.A. Yang, S. Wang, Y.Z. Tang, Y. He, B.Y. Cao. Molecular dynamics simulation of the growth of Fe films on Al substrate. Surfaces and Interfaces, 2025, 65: 106526 [PDF] | 248. | L.B. Guo, Y.B. Liu, Z.K. Chen, H.A. Yang, D. Donadio, B.Y. Cao. Generative deep learning for predicting ultrahigh lattice thermal conductivity materials. npj Computational Materials, 2025, 11: 97 [PDF] | 247. | Z.L. Tang, Y. Shen, B.Y. Cao. Modulating self-heating effects in GaN HEMTs using slant field plate. IEEE Transactions on Electron Devices, 2025, 72(4): 1907-1911 [PDF] | 246. | [Review] D. Luo, H. Chen, W.H. Chen, X.D. Zhang, L.M. Geng, W. Jiang, Y. Yu, B.Y. Cao. Interdependent optimization strategies for material, module, and system designs in thermoelectric devices. Device, 2025, 3: 100752 [PDF] | 245. | [Tutorial] L.B. Guo, Y.B. Liu, L. Yang, B.Y. Cao. Lattice dynamics modeling of thermal transport in solids using machine-learned atomic cluster expansion potentials: A tutorial. Journal of Applied Physics, 2025, 137: 081101 [PDF] |
| 2024 | Top |
| 244. | [Review] Z.Q. Yu, M.T. Li, B.Y. Cao. A comprehensive review on microchannel heat sinks for electronics cooling. International Journal of Extreme Manufacturing, 2024, 6: 022005 [PDF] | 243. | [Editorial] R.Q. Guo, T.F. Luo, A. McGaughey, B.Y. Cao. Machine learning for thermal transport. Journal of Applied Physics, 2024, 136(16): 160401 [PDF] | 242. | Y. Shen, B.Y. Cao. Two-temperature principle for evaluating electrothermal performance of GaN HEMTs. Applied Physics Letters, 2024, 124(4): 042107 [PDF] | 241. | Z.L. Tang, B.Y. Cao. Heat generation mechanisms of self-heating effects in SOI-MOS. IEEE Journal of the Electron Devices Society, 2024, 12: 350-358 [PDF] | 240. | Z.K. Liu, Y. Shen, H.L. Li, B.Y. Cao. Observation of ballistic-diffusive thermal transport in GaN transistors using thermoreflectance thermal imaging. Rare Metals, 2024, 43(1):389-394 [PDF] | 239. | Z.Y. Liu, Z.K. Liu, G. Yang, B.Y. Cao. Multi-pulse thermoreflectance imaging with structure function analyses for measuring thermophysical properties of microscale heterostructures. International Journal of Heat and Mass Transfer, 2024, 229: 125737 [PDF] | 238. | G. Yang, B.Y. Cao. Three-sensor 2ω method with multi-directional layout: A general methodology for measuring thermal conductivity of solid materials. International Journal of Heat and Mass Transfer, 2024, 219: 124878 [PDF] | 237. | G. Yang, Y.B. Liu, L. Yang, B.Y. Cao. Machine-learned atomic cluster expansion potentials for fast and quantum-accurate thermal simulations of wurtzite AlN. Journal of Applied Physics, 2024, 135(8): 085105 [PDF] | 236. | X. Ran, B.Y. Cao. Roughness dependence of phonon-interface thermal transport: Theoretical model and Monte Carlo simulation. Physical Review B, 2024, 110: 024302 [PDF] | 235. | Y.X. Xu, B.Y. Cao, Y.G. Zhou. Near-interface effects on interfacial phonon transport: Competition between phonon-phonon interference and phonon-phonon scattering. International Journal of Heat and Mass Transfer, 2024, 232: 125943 [PDF] | 234. | Z.T. Zhang, Y.X. Dong, B.Y. Cao. Promoting temperature control and energy conservation by smart thermal management using nanoparticle suspensions with tunable thermal conductivity. Applied Energy, 2024, 374: 124097 [PDF] | 233. | Y.X. Dong, Z.T. Zhang, X.D. Zhang, B.Y. Cao. Orientation of graphene nanosheets in suspension under an electric field: Theoretical model and molecular dynamic simulations. Journal of Physics: Condensed Matter, 2024, 36(25): 255702 [PDF] | 232. | Y.B. Liu, X. Liu, B.Y. Cao. Graph attention neural networks for mapping materials and molecules beyond short-range interatomic correlations. Journal of Physics: Condensed Matter, 2024, 36: 215901 [PDF] | 231. | S.N. Li, B.Y. Cao. Thermodynamic costs of temperature stabilization in logically irreversible computation. Journal of Non-Equilibrium Thermodynamics, 2024, 49(2): 115–123 [PDF] | 230. | D. Luo, Y. Yu, Y.Y. Yan, W.H. Chen, B.Y. Cao. Increasing power densities in a thermoelectric generator by stacking and incorporating dual heat pipes. Device, 2024, 2(8): 100435 [PDF] | 229. | D. Luo, Z.H. Wu; L. Jiang, Y.Y. Yan, W.H. Chen, J. Cao, B.Y. Cao. Realizing rapid cooling and latent heat recovery in the thermoelectric-based battery thermal management system at high temperatures. Applied Energy, 2024, 370: 123642 [PDF] | 228. | D. Luo, Z.R. Liu, J. Cao, Y.Y. Yan, B.Y. Cao. Performance investigation and optimization of an L-type thermoelectric generator. Energy, 2024, 307: 132768 [PDF] | 227. | D. Luo, Z. Li, Y.Y. Yan, J. Cao, H.K. Zhang, B.Y. Cao. Performance analysis and optimization of an annular thermoelectric generator integrated with vapor chambers. Energy, 2024, 307: 132565 [PDF] | 226. | D. Luo, S. Yang, Y.Y. Yan, J. Cao, X.L. Yang, B.Y. Cao. Performance improvement of the automotive thermoelectric generator system with a novel heat pipe configuration. Energy, 2024, 306: 132376 [PDF] | 225. | D. Luo, H.K. Zhang, J. Cao, Y.Y. Yan, B.Y. Cao. Numerical investigation and optimization of a hexagonal thermoelectric generator with diverging fins for exhaust waste heat recovery. Energy, 2024, 301: 131756 [PDF] | 224. | D. Luo, Y. Zhao, J. Cao, W.H. Chen, Y.L. Zhao, B.Y. Cao. Performance analysis of a novel thermoelectric-based battery thermal management system. Renewable Energy, 2024, 224: 120193 [PDF] | 223. | D. Luo, S. Yang, Y.Y. Yan, J. Cao, B.Y. Cao. Performance improvement of the automotive thermoelectric generator by extending the hot side area of the heat exchanger through heat pipes. Energy Conversion and Management, 2024, 310: 118472 [PDF] | 222. | D. Luo, H.K. Zhang, J. Cao, Y.Y. Yan, B.Y. Cao. Innovative design of an annular thermoelectric generator for enhanced automotive waste heat recovery. Energy Conversion and Management, 2024, 313: 118584 [PDF] | 221. | D. Luo, Y.Y. Yan, W.H. Chen, B.Y. Cao. Exploring the dynamic characteristics of thermoelectric generator under fluctuations of exhaust heat. International Journal of Heat and Mass Transfer, 2024, 222: 125151 [PDF] | 220. | D. Luo, Z.H. Wu, Y.Y. Yan, J. Cao, X.L. Yang, Y.L. Zhao, B.Y. Cao. Performance investigation and design optimization of a battery thermal management system with thermoelectric coolers and phase change materials. Journal of Cleaner Production, 2024, 434: 139834 [PDF] | 219. | D. Luo, H.F. Wu, J. Cao, Y.Y. Yan, X.L. Yang, B.Y. Cao. Numerical investigation of a battery thermal management system integrated with vapor chamber and thermoelectric refrigeration. Journal of Cleaner Production, 2024, 434: 140089 [PDF] | 218. | D. Luo, Z.H. Wu, Y.Y. Yan, Z.Y. Sun, L. Yang, B.Y. Cao. Performance analysis of a battery thermal management system combining thermoelectric, composite phase change material, and liquid cooling under extreme operating conditions. Journal of Energy Storage, 2024, 95: 112679 [PDF] | 217. | D. Luo, Z. Li, Y.Y. Yan, L. Yang, J. Cao, X.L. Yang, B.Y. Cao. Design and optimization of a thermoelectric generator with dimple fins to achieve higher net power. Applied Thermal Engineering, 2024, 252: 123735 [PDF] |
| 2023 | Top |
| 216. | Y.B. Liu, H.L. Liang, L. Yang, G. Yang, H.A. Yang, S. Song, Z.X. Mei, G. Csányi, B.Y. Cao. Unraveling thermal transport correlated with atomistic structures in amorphous gallium oxide via machine learning combined with experiments. Advanced Materials, 2023, 35(4): 2210873 [PDF] | 215. | X.D. Zhang, Z.T. Zhang, H.Z. Wang, B.Y. Cao. Thermal interface materials with high thermal conductivity and low Young’s modulus using a solid–liquid metal codoping strategy. ACS Applied Materials & Interfaces, 2023, 15(2): 3534–3542 [PDF] | 214. | Z.K. Liu, G. Yang, B.Y. Cao. Pulsed thermoreflectance imaging for thermophysical properties measurement of GaN epitaxial heterostructures. Review of Scientific Instruments, 2023, 94(9): 094902 [PDF] | 213. | G. Yang, B.Y. Cao. Three-sensor 3ω-2ω method for the simultaneous measurement of thermal conductivities and thermal boundary resistance in film-on-substrate heterostructures. Journal of Applied Physics, 2023, 133(4): 045104 [PDF] | 212. | Y. Shen, H.A. Yang, B.Y. Cao. Near-junction phonon thermal spreading in GaN HEMTs: A comparative study of simulation techniques by full-band phonon Monte Carlo method. International Journal of Heat and Mass Transfer, 2023, 211: 124284 [PDF] | 211. | Y. Shen, X.S. Chen, Y.C. Hua, H.L. Li, L. Wei, B.Y. Cao. Bias dependence of non-Fourier heat spreading in GaN HEMTs. IEEE Transactions on Electron Devices, 2023, 70(2): 409-417 [PDF] | 210. | H.L. Li, Y. Shen, Y.C. Hua, S.L. Sobolev, B.Y. Cao. Hybrid Monte Carlo-diffusion studies of modeling self-heating in ballistic-diffusive regime for GaN HEMTs. Journal of Electronic Packaging-Transactions of the ASME, 2023, 145: 011203 [PDF] | 209. | H.A. Yang, B.Y. Cao. Mode-resolved phonon transmittance using lattice dynamics: Robust algorithm and statistical characteristics. Journal of Applied Physics, 2023, 134: 155302 [PDF] | 208. | Z.L. Tang, Y. Shen, H.L. Li, B.Y. Cao. Topology optimization for near-junction thermal spreading of electronics in ballistic-diffusive regime. iScience, 2023, 26(7): 107179 [PDF] | 207. | S.N. Li, B.Y. Cao. Speed limits to information erasure considering synchronization between heat transport and work cost. International Journal of Heat and Mass Transfer, 2023, 217: 124688 [PDF] | 206. | D. Luo, Y. Li, Y.Y. Yan, X.M Hu, J. Cao, X.A. Fan, W.H. Chen, X.L. Yang, Y. Ren, B.Y. Cao. Realizing ultrahigh ZT value and efficiency of the Bi2Te3 thermoelectric module by periodic heating. Energy Conversion and Management, 2023, 296: 117669 [PDF] | 205. | D. Luo, Y.Y. Yan, Y. Li, W.H. Chen, X.L. Yang, X.H. Wang, B.Y. Cao. Dynamic behaviour of automobile thermoelectric waste heat recovery under different driving cycles. Applied Thermal Engineering, 2023, 232: 121039 [PDF] | 204. | D. Luo, Y.Y. Yan, W.H. Chen, X.L. Yang, H. Chen, B.Y. Cao, Y.L. Zhao. A comprehensive hybrid transient CFD-thermal resistance model for automobile thermoelectric generators. International Journal of Heat and Mass Transfer, 2023, 211: 124203 [PDF] | 203. | L.F. Yu, J.J. Zhang, X.L. Wu, J.M. Huang, L.M. Hu, Y. Dong, K. Chen, B.Y. Cao. Efficient optimization of parallel micro-channel heat sinks based on flow resistance network model. Applied Thermal Engineering, 2023, 233: 121169 [PDF] | 202. | X.M. Yang, Q. Liu, Y.F. Ma, J.F. Xie, B.Y. Cao. Molecular dynamics study on the kinematic viscosity, density and structure of fuel blends containing n-decane and biofuel compound of ethyl decanoate or ethyl dodecanoate. Journal of Molecular Liquids, 2023, 379: 121680 [PDF] | 201. | X.M. Yang, C. Ji, J.T. Liu, Y.F. Ma, B.Y. Cao. New insights into the heat capacity enhancement of nano-SiO2 doped alkali metal chloride molten salt for thermal energy storage: A molecular dynamics study. Journal of Energy Storage, 2023, 63: 107015 [PDF] | 200. | A. Rodriguez, C.P. Lin, H.A. Yang, M. Al-Fahdi, C. Shen, K. Choudhary, Y. Zhao, J.J. Hu, B.Y. Cao, H.B. Zhang, M. Hu. Million-scale data integrated deep neural network for phonon properties of heuslers spanning the periodic table. npj Computational Materials, 2023, 9: 20 [PDF] |
| 2022 | Top |
| 199. | [Review] D.S. Tang, B.Y. Cao. Phonon thermal transport and its tunability in GaN for near-junction thermal management of electronics: A review. International Journal of Heat and Mass Transfer, 2022, 200: 123497 [PDF] | 198. | [Review] X.D. Zhang, G. Yang, B.Y. Cao. Bonding-enhanced interfacial thermal transport: Mechanisms, materials and applications. Advanced Materials Interface, 2022, 9(27): 2200078 [PDF] | 197. | [Review] Z.T. Zhang, B.Y. Cao. Thermal smart materials with tunable thermal conductivity: Mechanisms, materials and applications. Science China-Physics, Mechanics & Astronomy, 2022, 65(11): 117003 [PDF] | 196. | [Review] 曹炳阳, 张梓彤. 热智能材料及其在空间热控中的应用. 物理学报, 2022, 71(1): 014401 [PDF] | 195. | K.K. Zheng, Z.T. Zhang, B.Y. Cao, S. Granick. Biopolymer filament entanglement softens then hardens with shear. Physical Review Letters, 2022, 129: 147801 [PDF] | 194. | H.A. Yang, H.Y. Wei, B.Y. Cao. Symmetry-enforced planar nodal chain phonons in non-symmorphic materials. Journal of Applied Physics, 2022, 132(12): 224401 [PDF] | 193. | Y. Shen, Y.C. Hua, H.L. Li, S.L. Sobolev, B.Y. Cao. Spectral thermal spreading resistance of wide-bandgap semiconductors in ballistic-diffusive regime. IEEE Transactions on Electron Devices, 2022, 69(6): 3047-3054 [PDF] | 192. | L. Yang, B.Y. Cao. Significant anharmonicity of thermal transport in amorphous silica at high temperature. Physica Status Solidi-Rapid Research Letters, 2022, 16(11): 2200217 [PDF] | 191. | H.L. Li, D.Y. Lan, X.M. Zhang, B.Y. Cao. Investigation of the parameter-dependence of topology-optimized heat sinks in natural convection. Heat Transfer Engineering, 2022, 43(1): 922-936 [PDF] | 190. | Z.K. Liu, H.L. Li, B.Y. Cao. Topology optimization of heat source distribution for volume-to-point heat conduction. International Communications in Heat and Mass Transfer, 2022, 138: 106304 [PDF] | 189. | Y.B. Liu, W.X. Hong, B.Y. Cao. MolNet-3D: Deep learning of molecular representations and properties from 3D topography. Advanced Theory and Simulations, 2022, 5(6): 2200037 [PDF] | 188. | M.J. Anish, B.Y. Cao. An electron-phonon Monte Carlo study on thermal transport in GaN. International Journal of Thermal Sciences, 2022, 181: 107742 [PDF] | 187. | M.J. Anish, B.Y. Cao. Electron heat source driven heat transport in GaN at nanoscale: Phonon-electron Monte Carlo simulations and a two temperature model. Materials, 2022, 15(5): 1651 [PDF] | 186. | Z.Q. Ye, C. Ji, T. Yu, R. Sun, X.L. Zeng, B.Y. Cao. Enhanced interfacial heat-transfer of Al2O3-MXene-silicone composite via an electrostatic self-assembly strategy. International Journal of Heat and Mass Transfer, 2022, 199: 123430 [PDF] | 185. | B.D. Nie, B.Y. Cao. Interfacial thermal resistance in phonon hydrodynamic heat conduction. Journal of Applied Physics, 2022, 131(6): 064302 [PDF] | 184. | M. Yang, M.T. Li, X.G. Yu, L. Huang, H.Y. Zheng, J.Y. Miao, B.Y. Cao. A performance evaluation method based on the Pareto frontier for enhanced microchannel heat sinks. Applied Thermal Engineering, 2022, 212: 118550 [PDF] | 183. | X.M. Yang, Q. Liu, X.Z. Zhang, C. Ji, B.Y. Cao. A molecular dynamics simulation study of the densities and viscosities of 1,2,4-trimethylbenzene and its binary mixture with n-decane. Fluid Phase Equilibria, 2022, 562: 113566 [PDF] | 182. | X.M. Yang, J.W. Tao, Q. Liu, X.Z. Zhang, B.Y. Cao. Molecular dynamics simulation of thermophysical properties of binary RP-3 surrogate fuel mixtures containing trimethylbenzene, n-decane, and n-dodecane. Journal of Molecular Liquids, 2022, 359: 119258 [PDF] | 181. | X.M. Yang, F.X. Meng, X.Y. Zhang, B.Y. Cao, Y. Fu. Mesoscopic simulation of thermal conductivities of 3D carbon nanotubes, graphene and their epoxy resin based composites. International Journal of Thermal Sciences, 2022, 172: 107273 [PDF] |
| 2021 | Top |
| 180. | Y.C. Hua, B.Y. Cao. A two-sensor 3ω-2ω method for thermal boundary resistance measurement. Journal of Applied Physics, 2021, 129: 125107 [PDF] | 179. | D.S. Tang, B.Y. Cao. Topological effects of phonons in GaN and AlGaN: A potential perspective for tuning phonon transport. Journal of Applied Physics, 2021, 129: 085102 [PDF] | 178. | D.S. Tang, B.Y. Cao. Phonon thermal transport properties of GaN with symmetry-breaking and lattice deformation induced by the electric field. International Journal of Heat and Mass Transfer, 2021, 179: 121659 [PDF] | 177. | 唐道胜, 华钰超, 周艳光, 曹炳阳. GaN薄膜的热导率模型研究. 物理学报, 2021, 70(4): 045101 [PDF] | 176. | L. Yang, B.Y. Cao. Thermal transport of amorphous phase change memory materials using population-coherence theory: A first-principles study. Journal of Physics D: Applied Physics, 2021, 54: 505302 [PDF] | 175. | Y.G. Zhou, B.L. Huang, B.Y. Cao. Vibrational modes with long mean free path and large volumetric heat capacity drive higher thermal conductivity in amorphous zeolitic imidazolate framework-4. Materials Today Physics, 2021, 21: 100516 [PDF] | 174. | S.N. Li, B.Y. Cao. Generalized Boltzmann transport theory for relaxational heat conduction. International Journal of Heat and Mass Transfer, 2021, 173: 121225 [PDF] | 173. | S.N. Li, B.Y. Cao. Anomalies of Lévy-based thermal transport from the Lévy-Fokker-Planck equation. AIMS Mathematics, 2021, 6(7): 6868-6881 [PDF] | 172. | S.N. Li, B.Y. Cao. Entropic fluctuating hydrodynamics and scaling laws in anomalous heat conduction. ES Energy & Environment, 2021, 11: 40-45 [PDF] | 171. | Y. Shen, Y.B. Liu, B.Y. Cao. C4+ surrogate models for thermophysical properties of aviation kerosene RP-3 at supercritical pressures. Energy & Fuels, 2021, 35(9): 7858–7865 [PDF] | 170. | X.M. Yang, M.L. Zhang, Y. Gao, J.X. Cui, B.Y. Cao. Molecular dynamics study on viscosities of sub/supercritical n-decane, n-undecane and n-dodecane. Journal of Molecular Liquids, 2021, 335: 116180 [PDF] | 169. | X.M. Yang, Y. Gao, M.L. Zhang, W.C. Jiang, B.Y. Cao. Comparison of atomic simulation methods for computing thermal conductivity of n-decane at sub/supercritical pressure. Journal of Molecular Liquids, 2021, 342: 117478 [PDF] | 168. | S.L. Sobolev, B.Y. Cao, I.V. Kudinov. Non-Fourier heat transport across 1D nano film between thermal reservoirs with different boundary resistances. Physica E-Low-Dimensional Systems & Nanostructures, 2021, 128: 114610 [PDF] |
| 2020 | Top |
| 167. | D.S. Tang, G.Z. Qin, M. Hu, B.Y. Cao. Thermal transport properties of GaN with biaxial strain and electron-phonon coupling. Journal of Applied Physics, 2020, 127: 035102 [PDF] | 166. | M. Yang, M.T. Li, Y.C. Hua, W. Wang, B.Y. Cao. Experimental study on single-phase hybrid microchannel cooling using HFE-7100 for liquid-cooled chips. International Journal of Heat and Mass Transfer, 2020, 160: 120230 [PDF] | 165. | M. Yang, B.Y. Cao. Multi-objective optimization of a hybrid microchannel heat sink with manifold arrangement and secondary channels. Applied Thermal Engineering, 2020, 181: 115592 [PDF] | 164. | Y.B. Liu, J.Y. Yang, G.M. Xin, L.H. Liu, G. Csányi, B.Y. Cao. Machine learning interatomic potential developed for molecular simulations on thermal properties of β-Ga2O3. The Journal of Chemical Physics, 2020, 153: 144501 [PDF] | 163. | Y.B. Liu, B.Y. Cao. Thermodynamic models for H2O–CO2–H2 mixtures in near-critical and supercritical regions of water. International Journal of Hydrogen Energy, 2020, 45(7): 4297-4304 [PDF] | 162. | Z.T. Zhang, R.Y. Dong, D.S. Qiao, B.Y. Cao. Tuning the thermal conductivity of nanoparticle suspensions by electric field. Nanotechnology, 2020, 31: 465403 [PDF] | 161. | B.Y. Cao, M. Grmela, Z.Y. Guo, Y.C. Hua, B.D. Nie. Two temperature extension of phonon hydrodynamics. Journal of Non-Equilibrium Thermodynamics, 2020, 45(3): 291-304 [PDF] | 160. | H.L. Li, J. Shiomi, B.Y. Cao. Ballistic-diffusive heat conduction in thin films by phonon Monte Carlo method: Gray medium approximation versus phonon dispersion. Journal of Heat Transfer-Transactions of the ASME, 2020, 142(11): 112502 [PDF] | 159. | S.N. Li, B.Y. Cao. Anomalous heat diffusion from fractional Fokker-Planck equation. Applied Mathematics Letters, 2020, 99: 105992 [PDF] | 158. | S.N. Li, B.Y. Cao. A superstatistical model for anomalous heat conduction and diffusion. Applied Mathematical Modelling, 2020, 79: 392-401 [PDF] | 157. | S.N. Li, B.Y. Cao. Fractional-order heat conduction models from generalized Boltzmann transport equation. Philosophical Transactions of the Royal Society A– Mathematical, Physical and Engineering Sciences, 2020, 378: 20190280 [PDF] | 156. | S.N. Li, B.Y. Cao. Beyond phonon hydrodynamics: Nonlocal phonon heat transport from spatial fractional-order Boltzmann transport equation. AIP Advances, 2020, 10: 105004 [PDF] | 155. | H.A. Yang, B.Y. Cao. Effects and correction of angular momentum non-conservation in RNEMD for calculating thermal conductivity. Computational Materials Science, 2020, 183: 109753 [PDF] | 154. | Y.C. Hua, B.Y. Cao. Study of phononic thermal transport across nanostructured interfaces using phonon Monte Carlo method. International Journal of Heat and Mass Transfer, 2020, 154: 119762 [PDF] | 153. | B.D. Nie, B.Y. Cao. Thermal wave in phonon hydrodynamic regime by phonon Monte Carlo simulations. Nanoscale and Microscale Thermophysical Engineering, 2020, 24(2): 94-122 [PDF] | 152. | B.D. Nie, B.Y. Cao, Z.Y. Guo, Y.C. Hua. Thermomass theory in the framework of GENERIC. Entropy, 2020, 22: 227 [PDF] | 151. | X.M. Yang, Y.Y. Feng, J.H. Jin, Y.B. Liu, B.Y. Cao. Molecular dynamics simulation and theoretical study on heat capacities of supercritical H2O/CO2 mixtures. Journal of Molecular Liquids, 2020, 299: 112133 [PDF] | 150. | C.Q. Liu, W. Yu, C. Chen, M. Chen, H.Q. Xie, B.Y. Cao. Remarkably reduced thermal contact resistance of graphene/olefin block copolymer/paraffin form stable phase change thermal interface material. International Journal of Heat and Mass Transfer, 2020, 163: 120393 [PDF] | 149. | J. Gao, C. Si, Y.R. Yang, B.Y. Cao, X.D. Wang. Molecular dynamics investigation on thermal conductivity and phonon transmission of folded graphene. ECS Journal of Solid State Science and Technology, 2020, 9: 093005 [PDF] | 148. | B.W. Yang, D. Han, X.Y. Wang, S.Q. Hu, Q. Xin, B.Y. Cao, G.M. Xin. Molecular dynamic simulation of thermal transport in monolayer C3BxN1-x alloy. Nanotechnology, 2020, 31: 185404 [PDF] | 147. | H.Y. Sun, Z.K. Liu, G.M. Xin, Q. Xin, J.Z. Zhang, B.Y. Cao, X.Y. Wang. Thermal and flow characterization in nanochannels with tunable surface wettability: A comprehensive molecular dynamics study. Numerical Heat Transfer Part A-Applications, 2020, 78(6): 231-251 [PDF] |
| 2019 | Top |
| 146. | J.H. Zou, X.T. Xu, B.Y. Cao. Size-dependent mode contributions to the thermal transport in suspended and supported graphene nanoribbons. Applied Physics Letters, 2019, 115: 123105 [PDF] | 145. | Y.C. Hua, L. Xing, L.Y. Jiao, B.Y. Cao. An electrical thermometry platform for measuring cross-plane thermal conductivity of 2D flakes on substrate. Applied Physics Letters, 2019, 115: 123102 [PDF] | 144. | Y.C. Hua, H.L. Li, B.Y. Cao. Thermal spreading resistance in ballistic-diffusive regime in GaN HEMTs. IEEE Transactions on Electron Devices, 2019, 66(8): 3296-3301 [PDF] | 143. | Y.B. Liu, W.X. Hong, B.Y. Cao. Machine learning for thermodynamic properties of pure fluids and their mixtures. Energy, 2019, 188: 116091 [PDF] | 142. | Z.T. Zhang, X. Zhao, B.Y. Cao. Diffusion tensors of arbitrary-shaped nanoparticles in fluid by molecular dynamics simulation. Scientific Reports, 2019, 9: 18943 [PDF] | 141. | H.L. Li, B.Y. Cao. Radial ballistic-diffusive heat conduction in nanoscale. Nanoscale and Microscale Thermophysical Engineering, 2019, 23(1): 10-24 [PDF] | 140. | 李含灵, 曹炳阳. 微纳尺度体点导热的拓扑优化. 物理学报, 2019, 68(20): 200201 [PDF] | 139. | B.D. Nie, B.Y. Cao. Three mathematical representations and an improved ADI method for hyperbolic heat conduction. International Journal of Heat and Mass Transfer, 2019, 135: 974-984 [PDF] | 138. | B.Y. Cao, M.D. Domenico, B.D. Nie, A. Sellitto. Influence of the composition gradient on the propagation of heat pulses in functionally graded nanomaterials. Proceedings of the Royal Society A: Mathematical, Physical & Engineering Sciences, 2019, 475: 20180499 [PDF] | 137. | M. Yang, B.Y. Cao. Numerical study on flow and heat transfer of a hybrid microchannel cooling scheme using manifold arrangement and secondary channels. Applied Thermal Engineering, 2019, 159: 113896 [PDF] | 136. | S.N. Li, B.Y. Cao. Fractional Boltzmann transport equation for anomalous heat transport and divergent thermal conductivity. International Journal of Heat and Mass Transfer, 2019, 137: 84–89 [PDF] | 135. | S.N. Li, B.Y. Cao. Anomalous heat equations based on non-Brownian descriptions. Physica A, 2019, 526: 121141 [PDF] | 134. | S.N. Li, B.Y. Cao. On entropic framework based on standard and fractional phonon Boltzmann transport equations. Entropy, 2019, 21: 204 [PDF] | 133. | X.M. Yang, C.C. Duan, J.X. Xu, Y.B. Liu, B.Y. Cao. A numerical study on the thermal conductivity of H2O/CO2/H2 mixtures in supercritical regions of water for coal supercritical water gasification system. International Journal of Heat and Mass Transfer, 2019, 135: 413–424 [PDF] | 132. | X.M. Yang, Y.Y. Feng, J.X. Xu, X.Y. Zhang, Y.B. Liu, B.Y. Cao. Numerical study on transport properties of the working mixtures for coal supercritical water gasification based power generation systems. Applied Thermal Engineering, 2019, 162: 114228 [PDF] | 131. | X.M. Yang, J.X. Xu, S.H. Wu, D.P. Yu, B.Y. Cao. Molecular dynamics simulation of double-layered graphene-carbon nanotube junctions for thermal rectification. Materials Letters, 2019, 234: 357-360 [PDF] | 130. | X.M. Yang, X.Y. Zhao, B.Y. Cao. Effect of thermal contact number on the tube-tube contact conductance of single-walled carbon nanotubes. Nanomaterials, 2019, 9: 477 [PDF] | 129. | Y.B. Liu, J. Qiu, L.H. Liu, B.Y. Cao. Extracting optical constants of solid materials with micro-rough surfaces from ellipsometry without using effective medium approximation. Optics Express, 2019, 27(13): 17667-17680 [PDF] | 128. | M. Grmela, M. Pavelka, V. Klika, B.Y. Cao, B.D. Nie. Entropy and entropy production in multiscale dynamics. Journal of Non-Equilibrium Thermodynamics, 2019, 44(3): 217-233 [PDF] |
| 2018 | Top |
| 127. | [Review] H. Bao, J. Chen, X.K. Gu, B.Y. Cao. A review of simulation methods in micro/nanoscale heat conduction. ES Energy & Environment, 2018, 1: 16-55 [PDF] | 126. | B.Y. Cao, J.H. Zou, G.J. Hu, G.X. Cao. Enhanced thermal transport across multilayer graphene and water by interlayer functionalization. Applied Physics Letters, 2018, 112: 041603 [PDF] | 125. | Y.C. Hua, B.Y. Cao. Interface-based two-way tuning of the in-plane thermal transport in nanofilms. Journal of Applied Physics, 2018, 123: 114304 [PDF] | 124. | B.D. Nie, B.Y. Cao. Reflection and refraction of a thermal wave at an ideal interface. International Journal of Heat and Mass Transfer, 2018, 116: 314-328 [PDF] | 123. | H.L. Li, Y.C. Hua, B.Y. Cao. A hybrid phonon Monte Carlo-diffusion method for ballistic-diffusive heat conduction in nano- and micro- structures. International Journal of Heat and Mass Transfer, 2018, 127: 1014-1022 [PDF] | 122. | S.N. Li, B.Y. Cao. Memory behaviors of entropy production rates in hyperbolic heat conduction. Physica A, 2018, 492: 105-112 [PDF] | 121. | J.F. Xie, B.Y. Cao. Influence of travelling surface waves on nanofluidic viscosity. Computers & Fluids, 2018, 160: 42-50 [PDF] | 120. | C. Si, L. Li, G. Lu, B.Y. Cao, X.D. Wang, Z. Fan, Z.H. Feng. A comprehensive analysis about thermal conductivity of multi-layer graphene with N-doping, -CH3 group and single vacancy. Journal of Applied Physics, 2018, 123: 135101 [PDF] | 119. | X.M. Yang, J.X. Xu, S.H. Wu, M. Yu, B. Hu, B.Y. Cao, J.H. Li. A molecular dynamics simulation study of PVT properties for H2O/H2/CO2 mixtures in near-critical and supercritical regions of water. International Journal of Hydrogen Energy, 2018, 43(24): 10980-10990 [PDF] | 118. | X.M. Yang, S.H. Wu, J.X. Xu, B.Y. Cao, A.C. To. Spurious heat conduction behavior of finite-size graphene nanoribbon under extreme uniaxial strain caused by the AIREBO potential. Physica E, 2018, 96: 46-53 [PDF] | 117. | X.M. Yang, J.X. Xu, S.H. Wu, D.P. Yu, B.Y. Cao. The effect of structural asymmetry on thermal rectification in nanostructures. Journal of Physics: Condensed Matter, 2018, 30(43): 435305 [PDF] | 116. | X.M. Yang, S.H. Wu, J.X. Xu, D.P. Yu, B.Y. Cao. Enhancing thermal rectification in graphene-carbon nanotube junctions by tuning the chirality of pillar. EPL (Europhysics Letters), 2018, 123(4): 44004 [PDF] | 115. | Z.X. Lu, A. Vallabhaneni, B.Y. Cao, X.L. Ruan. Phonon branch-resolved electron-phonon coupling and the multi-temperature model. Physical Review B, 2018, 98: 134309 [PDF] |
| 2017 | Top |
| 114. | Z.Q. Ye, B.Y. Cao. Thermal rectification at the bimaterial nanocontact interface. Nanoscale, 2017, 9: 11480-11487 [PDF] | 113. | J.H. Zou, B.Y. Cao. Phonon thermal properties of graphene on h-BN from molecular dynamics simulations. Applied Physics Letters, 2017, 110: 103106 [PDF] | 112. | Y.C. Hua, B.Y. Cao. Slip boundary conditions in ballistic-diffusive heat transport in nanostructures. Nanoscale and Microscale Thermophysical Engineering, 2017, 21(3): 159-176 [PDF] | 111. | Y.C. Hua, B.Y. Cao. An efficient two-step Monte Carlo method for phonon heat conduction in nanostructures. Journal of Computational Physics, 2017, 342: 253–266 [PDF] | 110. | Y.C. Hua, B.Y. Cao. Anisotropic heat conduction in two-dimensional periodic silicon nanoporous films. The Journal of Physical Chemistry C, 2017, 121(9): 5293–5301 [PDF] | 109. | Y.C. Hua, B.Y. Cao. Cross-plane heat conduction in nanoporous silicon thin films by phonon Boltzmann transport equation and Monte Carlo simulations. Applied Thermal Engineering, 2017, 111: 1401-1408 [PDF] | 108. | D.S. Tang, B.Y. Cao. Superballistic characteristics of transient phonon ballistic-diffusive conduction. Applied Physics Letters, 2017, 111: 113109 [PDF] | 107. | D.S. Tang, B.Y. Cao. Ballistic thermal wave propagation along nanowires modeled using phonon Monte Carlo simulations. Applied Thermal Engineering, 2017, 117: 609–616 [PDF] | 106. | S.N. Li, B.Y. Cao. Mathematical and information-geometrical entropy for phenomenological Fourier and non-Fourier heat conduction. Physical Review E, 2017, 96: 032131 [PDF] | 105. | S.N. Li, B.Y. Cao. Vortex characteristics in Fourier and non-Fourier heat conduction based on heat flux rotation. International Journal of Heat and Mass Transfer, 2017, 108: 2403–2407 [PDF] | 104. | S.N. Li, B.Y. Cao. Size effects in non-linear heat conduction with flux-limited behaviors. Physics Letters A, 2017, 381(42): 3621-3626 [PDF] | 103. | S.N. Li, B.Y. Cao. Approximate analyses of Fourier and non-Fourier heat conduction models by the variational principles based on Laplace transforms. Numerical Heat Transfer, Part A: Applications, 2017, 71( 9): 962–977 [PDF] | 102. | S.N. Li, B.Y. Cao. Entropic constitutive relation and modelling for Fourier and hyperbolic heat conductions. Entropy, 2017, 19: 644 [PDF] | 101. | X.M. Yang, D.P. Yu, B.Y. Cao. Giant thermal rectification from single-carbon nanotube–graphene junction. ACS Applied Materials & Interfaces, 2017, 9(28): 24078–24084 [PDF] | 100. | X.M. Yang, Y.H. Huang, B.Y. Cao, A.C. To. Ultrahigh thermal rectification in pillared graphene structure with carbon nanotube-graphene intramolecular junctions. ACS Applied Materials & Interfaces, 2017, 9: 29-35 [PDF] | 99. | X.M. Yang, Y.H. Huang, B.Y. Cao, A.C. To. Length and temperature dependence of the mechanical properties of finite-size carbyne. Physica E, 2017, 93: 124–131 [PDF] | 98. | J.F. Xie, B.Y. Cao. Fast nanofluidics by travelling surface waves. Microfluidics and Nanofluidics, 2017, 21: 111 [PDF] | 97. | J.F. Xie, B.Y. Cao. Natural convection of power-law fluids under wall vibrations: A lattice Boltzmann study. Numerical Heat Transfer, Part A: Applications, 2017, 72(8): 600-627 [PDF] | 96. | J.F. Xie, B.Y. Cao. Effect of various surface conditions on nanochannel flows past permeable walls. Molecular Simulation, 2017, 43(1): 65-75 [PDF] | 95. | C. Si, G. Lu, B.Y. Cao, X.D. Wang, Z. Fan, Z.H. Feng. Effects of torsion on the thermal conductivity of multi-layer graphene. Journal of Applied Physics, 2017, 121: 205102 [PDF] | 94. | C. Si, G. Lu, X.D. Wang, Z. Fan, Z.H. Feng, B.Y. Cao. Impacts of potential models on calculating the thermal conductivity of graphene using non-equilibrium molecular dynamics simulations. International Journal of Heat and Mass Transfer, 2017, 107: 450–460 [PDF] | 93. | 董若宇, 曹鹏, 曹桂兴, 胡帼杰, 曹炳阳. 直流电场下水中石墨烯的定向行为研究. 物理学报, 2017, 66(1): 014702 [PDF] | 92. | T.L. Feng, W.J. Yao, Z.Y. Wang, J.J. Shi, C. Li, B.Y. Cao, X.L. Ruan. Spectral analysis of nonequilibrium molecular dynamics: Spectral phonon temperature and local nonequilibrium in thin films and across interfaces. Physical Review B, 2017, 95: 195202 [PDF] | 91. | Y.Q. Jiang, B.K. Chen, B.H. Wang, W.F. Wong, B.Y. Cao. Extended social force model with a dynamic navigation field for bidirectional pedestrian flow. Frontiers of Physics, 2017, 12: 124502 [PDF] |
| 2016 | Top |
| 90. | B.Y. Cao, W.J. Yao, Z.Q. Ye. Networked nanoconstrictions: An effective route to tuning the thermal transport properties of graphene. Carbon, 2016, 96: 711-719 [PDF] | 89. | B.Y. Cao, M. Yang, G.J. Hu. Capillary filling dynamics of polymer melts in nanopores: Experiments and rheological modelling. RSC Advances, 2016, 6: 7553-7559 [PDF] | 88. | Z.Q. Ye, B.Y. Cao. Nanoscale thermal cloaking in graphene by chemical functionalization. Physical Chemistry Chemical Physics, 2016, 18: 32952 - 32961 [PDF] | 87. | J.H. Zou, Z.Q. Ye, B.Y. Cao. Phonon thermal properties of graphene from molecular dynamics using different potentials. The Journal of Chemical Physics, 2016, 145: 134705 [PDF] | 86. | Y.C. Hua, B.Y. Cao. The effective thermal conductivity of ballistic–diffusive heat conduction in nanostructures with internal heat source. International Journal of Heat and Mass Transfer, 2016, 92: 995-1003 [PDF] | 85. | Y.C. Hua, B.Y. Cao. Ballistic-diffusive heat conduction in multiply-constrained nanostructures. International Journal of Thermal Sciences, 2016, 101: 126-132 [PDF] | 84. | Y.C. Hua, B.Y. Cao. Transient in-plane thermal transport in nanofilms with internal heating. Proceedings of the Royal Society A: Mathematical, Physical & Engineering Sciences, 2016, 472: 20150811 [PDF] | 83. | S.N. Li, B.Y. Cao. Generalized variational principles for heat conduction models based on Laplace transform. International Journal of Heat and Mass Transfer, 2016, 103: 1176–1180 [PDF] | 82. | S.N. Li, B.Y. Cao. On defects of Taylor series approximation in heat conduction models. International Journal of Heat and Mass Transfer, 2016, 98: 824-832 [PDF] | 81. | S.N. Li, B.Y. Cao. Lorentz covariance of heat conduction laws and a Lorentz-covariant heat conduction model. Applied Mathematical Modelling, 2016, 40: 5532-5541 [PDF] | 80. | S.N. Li, B.Y. Cao. On thermodynamics problems in the single-phase-lagging heat conduction model. Entropy, 2016, 18: 391 [PDF] | 79. | D.S. Tang, Y.C. Hua, B.D. Nie, B.Y. Cao. Phonon wave propagation in ballistic-diffusive regime. Journal of Applied Physics, 2016, 119: 124301 [PDF] | 78. | D.S. Tang, Y.C. Hua, B.Y. Cao. Thermal wave propagation through nanofilms in ballistic-diffusive regime by Monte Carlo simulations. International Journal of Thermal Sciences, 2016, 109: 81-89 [PDF] | 77. | W.J. Yao, B.Y. Cao. Triggering wave-domain heat conduction in graphene. Physics Letters A, 2016, 380: 2105-2110 [PDF] | 76. | M. Yang, B.Y. Cao, W. Wang, H.M. Yun, B.M. Chen. Experimental study on capillary filling in nanochannels. Chemical Physics Letters, 2016, 662: 137–140 [PDF] | 75. | J.F. Xie, B.Y. Cao. Nanochannel flow past permeable walls via molecular dynamics. AIP Advances, 2016, 6: 075307 [PDF] | 74. | R.Y. Dong, B.Y. Cao, H.M. Yun, B.M. Chen. Study on non-Newtonian behaviors of Lennard-Jones fluids via molecular dynamics simulations. Chinese Journal of Chemical Physics, 2016, 29(6): 754-760 [PDF] | 73. | X.M. Yang, Y.H. Huang, L.J. Wang, B.Y. Cao, A.C. To. Formation of single carbon chain bridging two SWCNTs via tensile deformation of nanobud junction. Materials and Design, 2016, 97: 86-92 [PDF] |
| 2015 | Top |
| 72. | Z.Q. Ye, B.Y. Cao, W.J. Yao, T.L. Feng, X.L. Ruan. Spectral phonon thermal properties in graphene nanoribbons. Carbon, 2015, 93: 915-523 [PDF] | 71. | R.Y. Dong, B.Y. Cao. Superhigh-speed unidirectional rotation and its decoupled dynamics of a carbon nanotube in a sheared fluid. RSC Advances, 2015, 5: 88719–88724 [PDF] | 70. | R.Y. Dong, Y. Zhou, C. Yang, B.Y. Cao. Translational thermophoresis and rotational movement of peanut-like colloids under temperature gradient. Microfluidics and Nanofluidics, 2015, 19(4): 805-811 [PDF] | 69. | R.Y. Dong, Y. Zhou, C. Yang, B.Y. Cao. Experimental study on thermophoresis of colloids in aqueous surfactant solutions. Journal of Physics: Condensed Matter, 2015, 27: 495102 [PDF] | 68. | R.Y. Dong, B.Y. Cao. Investigation of rotational diffusion of a carbon nanotube by molecular dynamics. Journal of Nanoscience and Nanotechnology, 2015, 15 (4): 2984-2988 [PDF] | 67. | T.L. Feng, X.L. Ruan, Z.Q. Ye, B.Y. Cao. Spectral phonon mean free path and thermal conductivity accumulation in defected graphene: The effects of defect type and concentration. Physical Review B, 2015, 91(22): 224301 [PDF] | 66. | G.J. Hu, B.Y. Cao, Z.Y. Guo. Molecular dynamics studies on thermal transport through multiwalled carbon nanotubes. Journal of Nanoscience and Nanotechnology, 2015, 15(4): 2989-2996 [PDF] | 65. | W.J. Yao, B.Y. Cao. Molecular dynamics studies on ballistic thermal resistance of graphene nanojunctions. Communications in Theoretical Physics, 2015, 63(5): 619-624 [PDF] | 64. | Y. Dong, B.Y. Cao, Z.Y. Guo. Ballistic-diffusive phonon transport and size induced anisotropy of thermal conductivity of silicon nanofilms. Physica E, 2015, 66: 1-6 [PDF] | 63. | S.L. Dong, B.Y. Cao, P. Lin. Investigation on the thermophoretic tension force induced by particle rotation. Monthly Notices of the Royal Astronomical Society, 2015, 448(3): 2525-2529 [PDF] | 62. | S.L. Dong, B.Y. Cao, Z.Y. Guo. Numerical investigation of nanofluid flow and heat transfer around a calabash-shaped body. Numerical Heat Transfer: Part A, 2015, 68(5): 548-565 [PDF] | 61. | X.M. Yang, L.J. Wang, Y.H. Huang, B.Y. Cao. Effects of nanobuds and heat welded nanobuds chains on mechanical behavior of carbon nanotubes. Computational Materials Science, 2015, 109: 49-55 [PDF] | 60. | 华钰超, 曹炳阳. 多约束纳米结构的声子热导率模型研究. 物理学报, 2015, 64(14): 146501 [PDF] |
| 2014 | Top |
| 59. | B.Y. Cao, R.Y. Dong. Molecular dynamics calculation of rotational diffusion coefficient of a carbon nanotube in fluid. The Journal of Chemical Physics, 2014, 140: 034703 [PDF] | 58. | R.Y. Dong, B.Y. Cao. Anomalous orientations of a rigid carbon nanotube in a sheared fluid. Scientific Reports, 2014, 4: 6120 [PDF] | 57. | Z.Q. Ye, B.Y. Cao, Z.Y. Guo. High and anisotropic thermal conductivity of body-centered tetragonal C4 calculated using molecular dynamics. Carbon, 2014, 66: 567-575 [PDF] | 56. | Y.C. Hua, B.Y. Cao. Phonon ballistic-diffusive heat conduction in silicon nanofilms by Monte Carlo simulations. International Journal of Heat and Mass Transfer, 2014, 78: 755-759 [PDF] | 55. | M.K. Zhang, B.Y. Cao, Y.C. Guo. Numerical studies on damping of thermal waves. International Journal of Thermal Sciences, 2014, 84: 9-20 [PDF] | 54. | Y. Dong, B.Y. Cao, Z.Y. Guo. Size dependent thermal conductivity of Si nanosystems based on phonon gas dynamics. Physica E, 2014, 56: 256-262 [PDF] | 53. | W.J. Yao, B.Y. Cao, H.M. Yun, B.M. Chen. Effects of nanosized constriction on thermal transport properties of graphene. Nanoscale Research Letters, 2014, 9(1): 408 [PDF] | 52. | W.J. Yao, B.Y. Cao. Thermal wave propagation in graphene by molecular dynamics simulations. Chinese Science Bulletin, 2014, 59(27): 3495-3503 [PDF] | 51. | G.J. Hu, B.Y. Cao. Thermal conductivity of multiwalled carbon nanotubes: molecular dynamics simulations. Chinese Physics B, 2014, 23(9): 096501 [PDF] | 50. | G.J. Hu, B.Y. Cao, Y.W. Li. Thermal conduction in a single polyethylene chain using molecular dynamics simulations. Chinese Physics Letters, 2014, 31(8): 086501 [PDF] | 49. | 叶振强, 曹炳阳, 过增元. 石墨烯的声子热学性质研究. 物理学报, 2014, 63(15): 154704 [PDF] |
| 2013 | Top |
| 48. | B.Y. Cao, J. Kong, Y. Xu, et al. Polymer nanowire arrays with high thermal conductivity and superhydrophobicity fabricated by a nano-moulding technique. Heat Transfer Engineering, 2013, 34(2-3): 131-139 [PDF] | 47. | Y. Dong, B.Y. Cao, Z.Y. Guo. Temperature in nonequilibrium states and non-Fourier heat conduction. Physical Review E, 2013, 87: 032150 [PDF] | 46. | G.J. Hu, B.Y. Cao. Thermal resistance between crossed carbon nanotubes: Molecular dynamics simulations and analytical modeling. Journal of Applied Physics, 2013, 114: 224308 [PDF] | 45. | G.J. Hu, B.Y. Cao. Flows of polymer melts through nanopores: Experiments and modelling. Journal of Thermal Science and Technology, 2013, 8(2): 363-369 [PDF] | 44. | M.K. Zhang, B.Y. Cao, Y.C. Guo. Numerical studies on dispersion of thermal waves. International Journal of Heat and Mass Transfer, 2013, 67: 1072-1082 [PDF] | 43. | Y.W. Li, B.Y. Cao. Thermal conductivity of single-walled carbon nanotube with internal heat source studied by molecular dynamics simulation. International Journal of Thermophysics, 2013, 34(12): 2361-2370 [PDF] | 42. | 华钰超, 董源, 曹炳阳. 硅纳米薄膜中声子弹道扩散导热的蒙特卡罗模拟. 物理学报, 2013, 62(24): 244401 [PDF] |
| 2012 | Top |
| 41. | B.Y. Cao, R.Y. Dong. Nonequilibrium molecular dynamics simulation of shear viscosity by a uniform momentum source-and-sink scheme. Journal of Computational Physics, 2012, 231(16): 5306-5316 [PDF] | 40. | Y. Dong, B.Y. Cao, Z.Y. Guo. General expression for entropy production in transport processes based on the thermomass model. Physical Review E, 2012, 8(6): 061107 [PDF] | 39. | Z.Y. Guo, Q.W. Hou, B.Y. Cao. A novel thermal driving force for nanodevices. Journal of Heat Transfer-Transactions of the ASME, 2012, 134(5): 051010 [PDF] | 38. | H.D. Wang, B.Y. Cao, Z.Y. Guo. Non-Fourier heat conduction in carbon nanotubes. Journal of Heat Transfer-Transactions of the ASME, 2012, 134(5): 051004 [PDF] | 37. | R.Y. Dong, B.Y. Cao. Application of the uniform source-and-sink scheme to molecular dynamics calculation of the self-diffusion coefficient of fluids. International Journal for Numerical Methods in Engineering, 2012, 92: 229-237 [PDF] | 36. | G.J. Hu, B.Y. Cao. Molecular dynamics simulations of heat conduction in multiwalled carbon nanotubes. Molecular Simulation, 2012, 38(10): 823-829 [PDF] | 35. | Q.W. Hou, B.Y. Cao. Phonon relaxation and heat conduction in one-dimensional Fermi-Pasta-Ulam Beta lattices by molecular dynamics simulations. Chinese Physics B, 2012, 21(1): 014401 [PDF] | 34. | J.F. Xie, S.S. Sazhin, B.Y. Cao. Molecular dynamics study of condensation/evaporation and velocity distribution of n-dodecane at liquid-vapour phase equilibria. Journal of Thermal Science and Technology, 2012, 7(1): 288-300 [PDF] | 33. | 曹炳阳, 董若宇, 孔杰, 等. 纳米孔模板浸润法制备聚乙烯纳米线阵列的热导率的实验研究. 物理学报, 2012, 61(4): 046501 [PDF] |
| 2011 | Top |
| 32. | B.Y. Cao, Y.W. Li, J. Kong, et al. High thermal conductivity of polyethylene nanowire arrays fabricated by an improved nanoporous template wetting technique. Polymer, 2011, 52(8): 1711-1715 [PDF] | 31. | B.Y. Cao, J.F. Xie, S.S. Sazhin. Molecular dynamics study on evaporation and condensation of n-dodecane at liquid-vapour phase equilibria. The Journal of Chemical Physics, 2011, 134(16): 164309 [PDF] | 30. | B.Y. Cao, Y.W. Li, R.Y. Dong, et al. Superhydrophobicity of self-organized surfaces of polymer nanowire arrays fabricated by a nano-injection moulding technique. Journal of Thermal Science and Technology, 2011, 6(2): 204-209 [PDF] | 29. | Y. Dong, B.Y. Cao, Z.Y. Guo. Generalized heat conduction laws based on thermomass theory and phonon hydrodynamics. Journal of Applied Physics, 2011, 110(6): 063504 [PDF] | 28. | G.J. Hu, B.Y. Cao, Z.Y. Guo. Entransy and entropy revisited. Chinese Science Bulletin, 2011, 56(27): 2974-2977 [PDF] | 27. | J.F. Xie, S.S. Sazhin, B.Y. Cao. Molecular dynamics study of the processes in the vicinity of the n-dodecane vapour/liquid interface. Physics of Fluids, 2011, 23(11): 112104 [PDF] |
| 2010 | Top |
| 26. | B.Y. Cao, Y.W. Li. A uniform source-and-sink scheme for calculating thermal conductivity by nonequilibrium molecular dynamics. The Journal of Chemical Physics, 2010, 133(2): 024106 [PDF] | 25. | H.D. Wang, B.Y. Cao, Z.Y. Guo. Heat flow choking in carbon nanotubes. International Journal of Heat and Mass Transfer, 2010, 53(9-10): 1796-1800 [PDF] |
| 2009 | Top |
| 24. | [Review] B.Y. Cao, J. Sun, M. Chen, Z.Y. Guo. Molecular momentum transport at fluid-solid interfaces in MEMS/NEMS: A review. International Journal of Molecular Sciences, 2009, 10(11): 4638-4706 [PDF] | 23. | Q.W. Hou, B.Y. Cao, Z.Y. Guo. Thermal gradient induced actuation in double-walled carbon nanotubes. Nanotechnology, 2009, 20(49): 495503 [PDF] | 22. | R.F. Hu, B.Y. Cao. Study on thermal wave based on the thermal mass theory. Science in China- Series E, 2009, 52(6): 1786-1792 [PDF] | 21. | 侯泉文, 曹炳阳, 过增元. 碳纳米管的热导率:从弹道到扩散输运. 物理学报, 2009, 58(11): 7809-7814 [PDF] |
| 2008 | Top |
| 20. | B.Y. Cao. Nonequilibrium molecular dynamics calculation of the thermal conductivity based on an improved relaxation scheme. The Journal of Chemical Physics, 2008, 129(17): 074106 [PDF] | 19. | B.Y. Cao, Q.W. Hou. Thermal conductivity of carbon nanotubes embedded in solids. Chinese Physics Letters, 2008, 25(4): 1392-1395 [PDF] | 18. | 过增元, 曹炳阳. 基于热质运动概念的普适导热定律. 物理学报, 2008, 57(7): 319-327 [PDF] |
| 2007 | Top |
| 17. | B.Y. Cao, Z.Y. Guo. Equation of motion of phonon gas and non-Fourier heat conduction. Journal of Applied Physics, 2007, 102(5): 053503 [PDF] | 16. | B.Y. Cao. Non-Maxwell slippage induced by surface roughness for microscale gas flow: a molecular dynamics simulation. Molecular Physics, 2007, 105(10): 1403-1410 [PDF] | 15. | B.Y. Cao, Q. G. Zhang, X. Zhang, et al. Experimental study on the in-plane thermal conductivity of Au nanofilms. Progress in Natural Science, 2007, 17(2): 212-216 [PDF] | 14. | X.K. Gu, B.Y. Cao. Thermal conductivity of dielectric nanowires with different cross-section shapes. Chinese Physics, 2007, 16(12): 3777-3782 [PDF] | 13. | 过增元, 曹炳阳, 朱宏晔, 张清光. 声子气的状态方程和声子气运动的守恒方程. 物理学报, 2007, 56(6): 3306-3312 [PDF] |
| 2006 | Top |
| 12. | B.Y. Cao, M. Chen, Z.Y. Guo. Liquid flow in surface-nanostructured channels studied by molecular dynamics simulation. Physical Review E, 2006, 74(6): 066311 [PDF] | 11. | B.Y. Cao, M. Chen, Z.Y. Guo. Effect of surface roughness on gas flow in microchannels by molecular dynamics simulation. International Journal of Engineering Science, 2006, 44(13-14): 927-937 [PDF] | 10. | 曹炳阳, 陈民, 过增元. 纳米通道内液体流动的滑移现象. 物理学报, 2006, 55(10): 5305-5310 [PDF] | 9. | 曹炳阳, 张清光, 张兴, 等. 纳米Pt膜的晶粒尺寸及其对导热性质的影响. 金属学报, 2006, 42(11): 1207-1211 [PDF] | 8. | Q.G. Zhang, B.Y. Cao, X. Zhang, et al. Influence of grain boundary scattering on the electrical and thermal conductivities of polycrystalline gold nanofilms. Physical Review B, 2006, 74(13): 134109 [PDF] | 7. | Q.G. Zhang, B.Y. Cao, X. Zhang, et al. Size effects on the thermal conductivity of polycrystalline platinum nanofilms. Journal of Physics-Condensed Matter, 2006, 18(34): 7937-7950 [PDF] | 6. | Q.G. Zhang, X. Zhang, B.Y. Cao, et al. Influence of grain boundary scattering on the electrical properties of platinum nanofilms. Applied Physics Letters, 2006, 89(11): 114102 [PDF] | 5. | X. Zhang, Q.G. Zhang, B.Y. Cao, et al. Experimental studies of thermal and electrical properties of platinum nanofilms. Chinese Physics Letters, 2006, 23(4): 936-938 [PDF] |
| 2005 | Top |
| 4. | B.Y. Cao, M. Chen, Z.Y. Guo. Temperature dependence of the tangential momentum accommodation coefficient for gases. Applied Physics Letters, 2005, 86(9): 091905 [PDF] | 3. | 曹炳阳, 陈民, 过增元. 纳米结构表面浸润性质的分子动力学研究. 高等学校化学学报, 2005, 26(2): 277-280 [PDF] |
| 2004 | Top |
| 2. | B.Y. Cao, M. Chen, Z.Y. Guo. Application of 2DMD to gaseous microflows. Chinese Science Bulletin, 2004, 49(11): 1101-1105 [PDF] | 1. | B.Y. Cao, M. Chen, Z.Y. Guo. Rarefied gas flow in rough microchannels by molecular dynamics simulation. Chinese Physics Letters, 2004, 21(9): 1777-1779 [PDF] |
