화학공학소재연구정보센터
검색결과 : 4,415건
No. Article
91 Facile phosphorus-embedding into SnS2 using a high-energy ball mill to improve the surface kinetics of P-SnS2 anodes for a Li-ion battery
Choi H, Lee S, Eom K
Applied Surface Science, 466, 578, 2019
92 Porous iron vanadate nanowire arrays on Ti foil as a high-performance lithium-ion battery
Hua K, Fang D, Bao R, You X, Tao JM, Li CJ, Liu YC, Luo ZP, Yi JH, Shu YC, Sun BS
Applied Surface Science, 465, 1047, 2019
93 MnO/Carbon fibers prepared by an electrospinning method and their properties used as anodes for lithium ion batteries
Zeng SW, Zhao RR, Li AJ, Xu SD, Lv DS, Luo Q, Shu D, Chen H
Applied Surface Science, 463, 211, 2019
94 Lithiation behavior of graphene-silicon composite as high performance anode for lithium-ion battery: A first principles study
Zhou F, Liao NB, Zhang M, Xue W
Applied Surface Science, 463, 610, 2019
95 Facile electrochemical synthesis of heterostructured amorphous-Sn@CuxO nanowire anode for Li-ion batteries with high stability and rate-performance
Kim M, Choi I, Kim JJ
Applied Surface Science, 479, 225, 2019
96 Three-dimensional carbon-coating silicon nanoparticles welded on carbon nanotubes composites for high-stability lithium-ion battery anodes
An WL, Xiang B, Fu JJ, Mei SX, Guo SG, Huo KF, Zhang XM, Gao B, Chu PK
Applied Surface Science, 479, 896, 2019
97 A novel FeC2O4-TOP derived porous pillar-like gamma-Fe2O3/carbon nanocomposite with excellent performance as anode for lithium-ion batteries
Zhu YP, Zhang SY, Sun Y, Xie AJ, Shen YH
Applied Surface Science, 479, 1212, 2019
98 Modification of Li [Li0.2Mn0.54Ni0.13Co0.13]O-2 cathode with alpha-MoO3 via a simple wet chemical coating process
Meng FB, Guo HJ, Wang ZX, Wang JX, Yan GC, Wu XW, Li XH, Zhou LJ
Applied Surface Science, 479, 1277, 2019
99 3D phosphorus-carbon electrode with aligned nanochannels promise high-areal-capacity and cyclability in lithium-ion battery
Yan YH, Xu HY, Peng CX, Zhang PC, Yang JH, Zheng SY
Applied Surface Science, 489, 734, 2019
100 Silica-based ionogel electrolyte with porous flower-like structure enables safer lithium ion battery
Cheng Y, Lu S, Zheng R, Zhang D, Zhang HP
Applied Surface Science, 485, 119, 2019