화학공학소재연구정보센터
검색결과 : 142건
No. Article
1 A novel method for improving particle growth and photoluminescence through F- substituting for gallery NO3- in layered Y/Eu hydroxides
Liu SH, Li JG, Liu WG, Cui H, Liu MM, Chen JL, Zhu HC, Li XD, Sun XD
Chemical Engineering Journal, 380, 2020
2 A facile method to conduct 3D self-supporting Co-FeCo/N-doped graphene-like carbon bifunctional electrocatalysts for flexible solid-state zinc air battery
Jin QY, Ren BW, Chen JP, Cui H, Wang CX
Applied Catalysis B: Environmental, 256, 2019
3 Investigating the thermal runaway mechanisms of lithium-ion batteries based on thermal analysis database
Feng XN, Zheng SQ, Ren DS, He XM, Wang L, Cui H, Liu X, Jin CY, Zhang FS, Xu CS, Hsu HJ, Gao S, Chen TY, Li YL, Wang TZ, Wang H, Li MG, Ouyang MG
Applied Energy, 246, 53, 2019
4 Pt & Pd decorated CNT as a workable media for SOF2 sensing: A DFT study
Cui H, Zhang XX, Chen DC, Tang J
Applied Surface Science, 471, 335, 2019
5 Pd-doped MoS2 monolayer: A promising candidate for DGA in transformer oil based on DFT method
Cui H, Zhang XX, Zhang GZ, Tang J
Applied Surface Science, 470, 1035, 2019
6 Preparation and characterization of a durable superhydrophobic hyperbranched poly(dimethylolbutanoic acid-glycidyl ester of versatic acid)/nano-SiO2 coating
Cui H, Hu MG, Yu Z, Xiao JJ
Applied Surface Science, 466, 171, 2019
7 Density functional theory study of small Ag cluster adsorbed on graphyne
Chen DC, Zhang XX, Tang J, Cui H, Li Y, Zhang GD, Yang JT
Applied Surface Science, 465, 93, 2019
8 High selectivity n-type InSe monolayer toward decomposition products of sulfur hexafluoride: A density functional theory study
Chen DC, Zhang XX, Cui H, Tang J, Pi SM, Cui ZL, Li Y, Zhang Y
Applied Surface Science, 479, 852, 2019
9 Adsorption characteristic of Rh-doped MoSe2 monolayer towards H-2 and C2H2 for DGA in transformer oil based on DFT method
Zhang YZ, Sun X, Tan S, Liu T, Cui H
Applied Surface Science, 487, 930, 2019
10 First-principles insight into Ni-doped InN monolayer as a noxious gases scavenger
Cui H, Zhang XX, Li Y, Chen DC, Zhang Y
Applied Surface Science, 494, 859, 2019