第一/通讯作者论文：

=====================================Year 2025=====================================

[57] Wang Cunhai*, Bian Hao, Fan Dewei, Zhang Pengfei^*, Liu Jingchong^*. Near-field radiative heat transfer between metaterminals composed of SiC plate-supported LiH nanoparticle arrays. International Journal of Heat and Mass Transfer, 236: 126375, 2025.

=====================================Year 2024=====================================

[56] Wang Cunhai^*, Chen Hao, Wang Fuqiang^*. Passive daytime radiative cooling materials toward real-world applications. Progress in Materials Science, 144: 101276, 2024. (IF: 41.2)

[55] Wang Cunhai^*. Radiative-cooling-driven passive thermoelectric devices. Device, 2: 100424, 2024.

[54] Wang Cunhai^*, Yin Zhao, Liu Jingchong^*. Theory and application of temporal coupling mode for a SiC/CaF₂/Ag cell-based grating. Optics Letters, 49(20): 5945-5948, 2024.

[53] Liu Yihong^#, Xie Yuanyuan^#, Chen Hao^#, Liao Jianbo, Lu Yujie, Lan Dongqi, Wang Cunhai*. Design and experimental study of a compact thermoelectric device driven by solar heating and radiative cooling. Next Energy, 4: 100146, 2024.

[52]Wang Cunhai^*, Liu Minxiang, Jiang Zeyi. Visible-to-near-infrared asymmetric transmission through a cross grating. Journal of Quantitative Spectroscopy and Radiative Transfer, 315: 108899, 2024.

[51] Wang Cunhai^*, Bian Hao, Jiang Zeyi. Multiple surface polariton-enhanced near-field radiative heat transfer between layered graphene/porous SiC terminals, International Journal of Heat and Mass Transfer, 220: 124991, 2024.

[50] Chen Ziying^#, Dong Mingyu^#, Wang Cunhai^*. Passive interfacial photothermal evaporation and sky radiative cooling assisted all-day freshwater harvesting: System design, experiment study, and performance evaluation, Applied Energy, 355: 122254, 2024. (IF: 10.4)

[49] Liu Jingchong^*, Li Zhen, Yu Lijuan, Huo Yulu, Chen Hao, Wang Cunhai^*, Wang Nü, Jiang Lei, Zhao Yong^*. Tuning nanochannel microenvironments of a thermoresponsive MXene membrane for mixed molecules gradient separation. Nano Letters, 24(41): 12955-12963, 2024. (IF: 10.1)

[48] Feng Yanyan, Yuan Minpeng, Xiang Yong, Fan Dewei, Wang Cunhai^*. Influence of thermodynamic conditions on the mixing characteristics of a supercritical nitrogen jet under mode excitation. International Journal of Heat and Mass Transfer, 234: 126079, 2024.

[47] Feng Yanyan, Wang Cunhai^*. Lattice Boltzmann study on magnetohydrodynamic double-diffusive convection in Fe₃O₄-H₂O nanofluid-filled porous media. Case Studies in Thermal Engineering, 58: 104405, 2024.

[46] Ji Wenchao, Li Guojun^*, Zhao Chunguang, Yi Zhi, Wei Linyang^*, Sun Shuangcheng^*, Wang Cunhai^*. A hybrid PSO-WO algorithm for identification of irregular inner wall defects of a body in a thermal environment. Engineering Analysis with Boundary Elements, 169 1060115, 2024.

[45] Ymeli Guillaume Lambou^*, Feng Yanyan, Wang Cunhai^*. Lattice Boltzmann simulations on transient radiative transfer problems in irregular geometries with constant or graded refractive index, International Journal of Thermal Sciences, 197: 108750, 2024.

=====================================Year 2023=====================================

[44] Wang Cunhai^*, Chen Hao, Jiang Zeyi, Zhang Xinxin, Wang Fuqiang^*. Modelling and performance evaluation of a novel passive thermoelectric system based on radiative cooling and solar heating for 24-hour power generation, Applied Energy, 331: 120425, 2023.  (IF: 10.4)

[43] Wang Cunhai^*, Chen Hao, Jiang Zeyi, Zhang Xinxin. Design and experimental validation of an all-day passive thermoelectric system via radiative cooling and greenhouse effects, Energy, 263: 125735, 2023.

[42] Wang Cunhai^*, Liu Mingxiang, Pan Chongchao, Jiang Zeyi. Broadband directional thermal radiator with flexible intensity-directivity tunability in the whole visible spectrum, Applied Physics Letters, 123, 022203, 2023.

[41] Wang Cunhai^*, Zhang Xiaoyang, Pan Chongchao, Jiang Zeyi. Unified discontinuous Galerkin finite-element framework for conjugated radiation-conduction heat transfer. Physical Review E, 107, 045303, 2023.

[40] Wang Cunhai^*, Bian Hao, Pan Chongchao, Jiang Zeyi. Near-field thermal rectification via an InSb/graphene/3C-SiC-nanowire heterostructure, International Journal of Thermal Sciences, 194, 108581, 2023.

[39] Zhang Xiao-Yang, Wang Cunhai^*. Development and application of discontinuous Galerkin method for solidification problems in a semitransparent medium-filled cavity, Journal of Energy Storage, 71: 108023, 2023.

[38] Ymeli Guillaume Lambou^*, Liu Xiaochuan, Tapimo Romuald, Wang Cunhai^†. Transient radiative transfer in two graded-index slabs adhered by an infinitely thin vacuum via the lattice Boltzmann method, International Journal of Heat and Mass Transfer, 211: 124228, 2023.

[37] Ymeli Guillaume Lambou^*, Liu Xiaochuan, Arantes Fokou, Wang Cunhai^†. Lattice Boltzmann method for radiative transfer in two-layered slab with graded-index and Fresnel reflecting surfaces, International Communications in Heat and Mass Transfer, 148: 107025, 2023.

[36] Ymeli Guillaume Lambou^*, Wang Cunhai^†. Generalized lattice Boltzmann method for radiative transfer problem in slab and irregular graded-index media, Physical Review E, 107: 015302, 2023.

[35] Yadava Mahendra, Yadava Rajendra Singh, and Wang Cunhai^*. Lattice Boltzmann simulations of flow inside a converging and diverging nozzle with the insertion of single and multiple circular cylinders, Physics of Fluids, 35 (8): 084110, 2023.

[34] Fokou Arantes^*, Tchinda Réné, Ymeli Guillaume Lambou, Lazard Myriam, Wang Cunhai^†. Estimating of the radiance in atmosphere-ocean systems with different atmosphere models by discrete spherical harmonics method, ASME Journal of Heat and Mass Transfer, 145: 052802, 2023.

=====================================Year 2022=====================================

[33] Wang Cunhai^*, Liu Mingxiang, Jiang Zeyi. TiO₂ particle agglomeration impacts on radiative cooling films with a thickness of 50 μm, Applied Physics Letters, 121(20): 202204, 2022.

[32] Wang Cunhai^*, Chen Hao, Jiang Zeyi, Zhang Xinxin. Refractive index impacts on polarized signals from a homogeneous Rayleigh scattering medium exposed to oblique irradiation. International Communications in Heat and Mass Transfer, 139: 106434, 2022.

[31] Wang Cunhai^*, Zhang Xiaoyang, Jiang Zeyi. Discontinuous finite element method for transient conductive heat transfer in layered media with thermal contact resistance, International Communications in Heat and Mass Transfer, 138: 106344, 2022.

[30] Wang Cunhai^*, Liu Zi-Yang, Jiang Ze-yi, Zhang Xin-xin. Double-diffusive convection in a magnetic nanofluid-filled porous medium: Development and application of a non-orthogonal lattice Boltzmann model, Physics of Fluids, 34 (6): 062012, 2022.

[29] Wang Cunhai^*, Liu Zi-Yang, Jiang Ze-yi, Zhang Xin-xin. Numerical investigations of convection heat transfer in a thermal source-embedded porous medium via a lattice Boltzmann method. Case Studies in Thermal Engineering, 30: 101758, 2022.

[28] Feng Yan-yan, Wang Cunhai^*, Xiang Yong^†, Zhang Xin-xin. Internal thermal source effects on convection heat transfer in a two-dimensional porous medium: A lattice Boltzmann study. International Journal of Thermal Sciences, 173: 107416, 2022.

=====================================Year 2021=====================================

[27] Feng Yanyan, Wang Cunhai^*. On the performance of a MRT lattice Boltzmann algorithm for transient radiative transfer problems. International Communications in Heat and Mass Transfer, 128: 105628, 2021.

[26] Wei Linyang, Li Guojun^*, Wang Cunhai^†, Zhang Weijun. Determination of gradient index based on laser beam deflection by stochastic particle swarm optimization, Applied Physics B, 127(9): 131, 2021.

[25] Wei Linyang, Li Guojun^*, Song Miaomiao, Wang Cunhai^†. Study on dynamic thermal behavior of PCM-filled double glazing unit under solar irradiation, International Journal of Energy Research, 45(15): 20672-20685, 2021.

[24] Chen Hao, Wang Cunhai^*, Cheng Ziming, Wei Linyang, Wang Fuqiang, Zhang Xin-xin. Performance analysis of a thermoelectric system based on radiative cooling and greenhouse effects. Acta Physica Sinica, 70(21): 214401, 2021.

[23] Wang Cunhai^*, Wu Xiaohu, Wang Fuqiang, Zhang Xinxin. Optimization design of a multilayer structure for broadband and direction-selective emissivity. ES Energy & Environment, 11: 84-92, 2021.

[22] Feng Yanyan, Wang Cunhai^*. Discontinuous finite element method applied to transient pure and coupled radiative heat transfer. International Communications in Heat and Mass Transfer, 122, 105156, 2021. (ESI高被引论文)

============================Year 2020 and before=====================================

[21] Wang Cunhai^*, Feng Yanyan, Yang Yaohua, Ben Xun, Zhang Xinxin. Square pulse effects on polarized radiative transfer in an atmosphere-ocean model. Optics Express, 28(13): 18713-18727, 2020.

[20] Wang Cunhai^*. Calculated radiance errors induced by neglecting the polarization of the irradiation beam exposed to an atmosphere. Journal of Quantitative Spectroscopy and Radiative Transfer, 250: 106995, 2020.

[19] Wang Cunhai^*, Feng Yanyan, Yang Yaohua, Zhang Yong, Yue Kai, Zhang Xinxin. Chebyshev collocation spectral method for vector radiative transfer equation and its applications in two-layered media. Journal of Quantitative Spectroscopy and Radiative Transfer, 243: 106822, 2020.

[18] Wang Cunhai^*, Zheng Shu^*, Zhang Xinxin. Discontinuous finite element solutions for coupled radiation-conduction heat transfer in irregular media. Acta Physica Sinica, 69(3): 034401, 2020.

[17] Liu Xiaochuan, Huang Yong^*, Wang Cunhai^*, Zhu Keyong. Solving steady and transient radiative transfer problems with strong inhomogeneity via a lattice Boltzmann method. International Journal of Heat and Mass Transfer, 155: 119714, 2020.

[16] Wang Cunhai^{*, #}, Feng Yanyan^{*, #}, Yue Kai, Zhang Xinxin. Discontinuous finite element method for combined radiation-conduction heat transfer in participating media. International Communications in Heat and Mass Transfer, 108: 104287, 2019. (ESI高被引论文)

[15] Wang Cunhai^{*, #}, Feng Yanyan^#, Ben Xun, Yue Kai, Zhang Xinxin. Time-dependent polarized radiative transfer in an atmosphere-ocean system exposed to external illumination. Optics Express, 27(16): A981-A994, 2019.

[14] Wang Cunhai^*, Feng Yanyan^*, Yue Kai, Zhang Xinxin. Discontinuous finite element method with unstructured meshes for polarized radiative transfer in irregular media. OSA Continuum, 2(4): 1474-1487, 2019.

[13] Wang Cunhai^*, Feng Yanyan, Yue Kai^*, Zhang Xinxin, Zhang Yong, Yi Hongliang. Polarized radiative transfer in complex media exposed to external irradiation. Journal of Quantitative Spectroscopy and Radiative Transfer, 225: 166-179, 2019.

[12] Feng Yan-Yan^#, Wang Cunhai^{*, #}. Discontinuous finite element method with a local numerical flux scheme for radiative transfer with strong inhomogeneity. International Journal of Heat and Mass Transfer, 126: 783-795, 2018.

[11] Wang Cunhai^*, Liu Huayuan. Discontinuous Galerkin finite element method for radiative heat transfer in two-dimensional media with inner obstacles. Numerical Heat Transfer-Part A, 73(11), 806-822, 2018.

[10] Wang Cunhai, Qu Lei, Zhang Yong, Yi Hongliang^*. Three-dimensional polarized radiative transfer simulation using the discontinuous finite element method. Journal of Quantitative Spectroscopy and Radiative Transfer, 208: 108-124, 2018.

[9] Wang Cunhai, Feng Yan-Yan, Zhang Yong^*, Yi Hongliang, Tan Heping. Transient/time-dependent radiative transfer in a two-dimensional scattering medium considering the polarization effect. Optics Express, 25(13): 14621-14634, 2017.

[8] Wang Cunhai, Yi Hongliang^*, Tan He-ping, Transient polarized radiative transfer analysis in a scattering medium by a discontinuous finite element method, Optics Express, 25(7): 7418-7442, 2017.

[7] Wang Cunhai, Yi Hongliang^*, Tan Heping. Discontinuous finite element method for vector radiative transfer. Journal of Quantitative Spectroscopy and Radiative Transfer, 189: 383-397, 2017.

[6] Wang Cunhai, Zhang Yong^*, Yi Hongliang, Xie Ming. Analysis of transient radiative transfer induced by an incident short-pulsed laser in a graded-index medium with Fresnel boundaries. Applied Optics, 56(7): 1861-1871, 2017.

[5] 王存海，易红亮^*，谈和平．间断有限元法求解一维矢量辐射传输．工程热物理学报，38(4)：833-840, 2017.

[4] Wang Cunhai, Zhang Yong, Yi Hongliang^*, Tan Heping^*. Transient radiative transfer in two dimensional graded index medium by Monte Carlo method combined with the time shift and superposition principle. Numerical Heat Transfer-Part A, 69(6): 574-588, 2016.

[3] Wang Cunhai, Ai Qing, Yi Hongliang^*, Tan Heping^*. Transient radiative transfer in a graded index medium with specularly reflecting surfaces. Numerical Heat Transfer-Part A, 67(11): 1232-1252, 2015.

[2] Yi Hongliang, Wang Cunhai, T Heping^*. Transient radiative transfer in a complex refracting medium by a modified Monte Carlo simulation. International Journal of Heat and Mass Transfer, 79: 437-449, 2014.

[1] Yi Hongliang, Wang Cunhai, Heping^*, Zhou Yu. Radiative heat transfer in semitransparent solidifying slab considering space-time dependent refractive index. International Journal of Heat and Mass Transfer, 55(5-6): 1724-1731, 2012.

更多内容详见个人学术主页：https://www.researchgate.net/profile/Cun_Hai_Wang