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Calmes, P., Keller, T., & Schneider, D. Optimizing the Internal Structure and Control of Power Semiconductor Modules. ATZelectronics worldwide., 2021. 16(4):8–13CalmesP.KellerT.SchneiderD.Optimizing the Internal Structure and Control of Power Semiconductor Modules2021164813Search in Google Scholar
Pan, M., & Hu, M. Numerical Simulation of Manifold Microchannel Heat Sinks for Thermal Management in a Li-Ion Battery. Chemical Engineering & Technology., 2020.43(12):2501–2513PanM.HuM.Numerical Simulation of Manifold Microchannel Heat Sinks for Thermal Management in a Li-Ion Battery2020431225012513Search in Google Scholar
Zhao, W., Sh, T., & Wang, L. Fault diagnosis and prognosis of bearing based on hidden Markov model with multi-features. Applied Mathematics and Nonlinear Sciences., 2020. 5(1):71–84ZhaoW.ShT.WangL.Fault diagnosis and prognosis of bearing based on hidden Markov model with multi-features2020517184Search in Google Scholar
Acar, E., Zgi, A., & Serenbay, S. K. Note on jakimovski-leviatan operators preserving e–x. Applied Mathematics and Nonlinear Sciences., 2019. 4(2):543–550AcarE.ZgiA.SerenbayS. K.Note on jakimovski-leviatan operators preserving e–x201942543550Search in Google Scholar
Wu, X., Yu, S., Shen, S., & Liu, W. Exploring the biomechanical responses of human cupula by numerical analysis of temperature experiments. Scientific Reports., 2021. 11(1):1–10WuX.YuS.ShenS.LiuW.Exploring the biomechanical responses of human cupula by numerical analysis of temperature experiments2021111110Search in Google Scholar
Wei, S., & Geng, F. Deepwater gas concentration feature extraction based on fluid mechanics. Arabian Journal of Geosciences., 2021.14(7):1–11WeiS.GengF.Deepwater gas concentration feature extraction based on fluid mechanics2021147111Search in Google Scholar
Sami, S., Alessandri, R., Broer, R., & Havenith, R. W. How ethylene glycol chains enhance the dielectric constant of organic semiconductors: molecular origin and frequency dependence. ACS applied materials & interfaces., 2020. 12(15):17783–17789SamiS.AlessandriR.BroerR.HavenithR. W.How ethylene glycol chains enhance the dielectric constant of organic semiconductors: molecular origin and frequency dependence202012151778317789Search in Google Scholar
Promson, S., Takahashi, K., Sasaki, T., Kikuchi, T., & Harada, N. Numerical Study of Operation Mode Effects on Thrust-to-Power Ratio in Diagonal MHD Accelerator. IEEJ Transactions on Fundamentals and Materials., 2019. 139(10):428–432PromsonS.TakahashiK.SasakiT.KikuchiT.HaradaN.Numerical Study of Operation Mode Effects on Thrust-to-Power Ratio in Diagonal MHD Accelerator201913910428432Search in Google Scholar
Samokhvalov, A. Understanding the structure, bonding and reactions of nanocrystalline semiconductors: a novel high-resolution instrumental method of solid-state synchronous luminescence spectroscopy. Physical Chemistry Chemical Physics., 2021. 23(12):7022–7036SamokhvalovA.Understanding the structure, bonding and reactions of nanocrystalline semiconductors: a novel high-resolution instrumental method of solid-state synchronous luminescence spectroscopy2021231270227036Search in Google Scholar
Amalesh, T., & Lakshmi Narasimhan, N. Cooling of a lithium ion battery using phase change material with air/dielectric fluid media: A numerical study. Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy., 2020. 234(5):722–738AmaleshT.Lakshmi NarasimhanN.Cooling of a lithium ion battery using phase change material with air/dielectric fluid media: A numerical study20202345722738Search in Google Scholar
Yadav, H. O. Understanding the binary interactions of noble metal and semiconductor nanoparticles. Soft Matter., 2020. 16(40):9262–9272YadavH. O.Understanding the binary interactions of noble metal and semiconductor nanoparticles2020164092629272Search in Google Scholar
Baggioli, A., Casalegno, M., Raos, G., Muccioli, L., Orlandi, S., & Zannoni, C. Atomistic Simulation of Phase Transitions and Charge Mobility for the Organic Semiconductor Ph-BTBT-C10. Chemistry of Materials., 2019. 31(17):7092–7103BaggioliA.CasalegnoM.RaosG.MuccioliL.OrlandiS.ZannoniC.Atomistic Simulation of Phase Transitions and Charge Mobility for the Organic Semiconductor Ph-BTBT-C102019311770927103Search in Google Scholar
Li, M. Y., Li, B., Lin, H., Ma, Z., Wu, L. M., Wu, X. T., & Zhu, Q. L. Sn2Ga2S5: a polar semiconductor with exceptional infrared nonlinear optical properties originating from the combined effect of mixed asymmetric building motifs. Chemistry of Materials., 2019. 31(16):6268–6275LiM. Y.LiB.LinH.MaZ.WuL. M.WuX. T.ZhuQ. L.Sn2Ga2S5: a polar semiconductor with exceptional infrared nonlinear optical properties originating from the combined effect of mixed asymmetric building motifs2019311662686275Search in Google Scholar