Journal of Inorganic Materials, Volume. 35, Issue 12, 1295(2020)
Figures & Tables(9)
![(a, b) SEM images of SnO2/C-NTs; (c) Cycling performance at 500 mA/g, and (d) rate capabilities of SnO2-NTs and SnO2/C-NTs[23]](/Images/icon/loading.gif){kind=icon}
1. (a, b) SEM images of SnO2/C-NTs; (c) Cycling performance at 500 mA/g, and (d) rate capabilities of SnO2-NTs and SnO2/C-NTs[23]
2. (a) Illustration of the synthesis principles of ultrafine SnO2 NPs immobilized in the mesopore channels of mesoporous carbon; (b) Cycle performance at 200 mA/g between 0.005 and 3 V, and (c) rate performance of electrodes based on different SnO2 content[31]
3. (a) SEM image, and (b) cycle performance at 100 mA/g of CuO NRAs[42]
4. (a) Schematic illustration of the synthesis of hollow CuO@NCS composites; (b) Cycle performance of CuO@NCS at 100 mA/g[46]
5. TEM images of (a) Fe2O3-graphene particle-on-sheet composite, and (b-d) Fe2O3-graphene sheet-on-sheet composite[57]
6. (a) Illustration for the synthetic procedure, (b) TEM image, and (c) rate capabilities of Fe3O4@N-HPCNs[63]
7. (a) Structure diagrams of the amorphous porous CoSnO3/Au composite nanocubes; Cycle performance of the amorphous porous CoSnO3/Au composite nanocubes at (b) 0.2 and (c) 5 A/g[65]
8. (a) Schematic illustration for the synthetic procedure, (b) TEM image, and (c) rate capabilities of spinel Znx Co3-x O4 hollow polyhedron[79]
Table 1. Structures and comprehensive electrochemical performances of different metal oxide anode materials
View tableView in ArticleTable 1. Structures and comprehensive electrochemical performances of different metal oxide anode materials
Materials structure First cyclic capacity/(mAh∙g-1) (Current density/(A∙g-1)) Coulombic efficiency Cycling performance/ (mAh∙g-1) (Current density/ (A∙g-1), cycle number) Rate performance/(mAh∙g-1) (Current density/(A∙g-1)) Ref. SnO2 NPs (5~20 nm) 1310 (0.1) 69% 800 (0.1, 100) 850 (1); 800 (2) [ 22 ]SnO2/C-NT (15 nm) 483 (0.5) 51% 596 (0.5, 200) 683 (1); 550 (2) [ 23 ]SnO2 nanosheets (7.4 nm) 1338 (0.1) 55% 763 (0.1, 300) 460 (1); 280 (2) [ 24 ]SnO2 HS (50 nm) 736 (0.1) 47% 540 (0.1, 50) 550 (1); 422 (2) [ 26 ]SnO2/C (50~100 nm) 998 (0.1) 69% 750 (0.1, 100) 413 (1); 325 (2) [ 28 ]C-SnO2/CNT (7 nm) 1373 (1) 52% 950 (1, 100) 1100 (1); 950 (2) [ 29 ]SnO2@G-SWCNT (7 nm) 1007 (0.1) 53% 785 (0.1, 100) 510 (1); 426 (2) [ 30 ]SnO2@CMK-5 (4~5 nm) 694 (0.2) 71% 1039 (0.1, 100) 770 (1) [ 31 ]SnO2/C (2.8 nm) 899 (1.4) 44% 560 (1.4, 100) 700 (1.4); 538 (2.8) [ 32 ]CuO spheres (400 nm) 590 (0.45) 66% 400 (0.45, 50) - [ 34 ]CuO octahedra (5 nm) 506 (0.5) 70% 785 (0.5, 50) 488 (1); 370 (2) [ 40 ]CuO labyrinths (20 nm) 645 (0.1) 66% 330 (1, 100) 340 (1.3); 255 (3.4) [ 41 ]CuO NRAs (2~3 μm) 751 (0.1) 56% 671 (0.1, 150) 367 (1); 300 (2) [ 42 ]CuO spheres (10 nm) 552 (0.67) 55% 750 (0.67, 350) 650 (1.3); 600 (3.4) [ 43 ]CuO/MWCNT (10 nm) 462 (0.07) 69% 650 (0.07, 100) 590 (1.3); 590 (2) [ 44 ]Cu2O/CuO/rGO (500 nm) 375 (0.3) 75% 570 (0.3, 100) 350 (1.3); 250 (2.7) [ 45 ]Cu@NCSs (45 nm) 909 (0.5) 62% 602 (0.5, 200) 760 (1); 570 (2) [ 46 ]Graphene/Fe2O3 (40 nm) 1074 (0.1) 65% 800 (0.1, 50) - [ 57 ]Fe2O3/CA (5~50 nm) 836 (0.1) 55% 635 (0.1, 100) 652 (0.4); 546 (0.8) [ 58 ]RG-O/Fe2O3 (60 nm) 1219 (0.1) 72% 1027 (0.1, 50) 970 (0.4); 760 (0.8) [ 59 ]Fe3O4@PCFs (10~60 nm) 1014 (0.2) 72% 920 (0.2, 80) 677 (1); 523 (2) [ 51 ]Fe3O4/PPy (200 nm) 493 (1) 89% 554 (1, 100) 500 (1); 330 (2) [ 61 ]Fe3O4-CNTs (50~100 nm) 845 (0.05) 77% 702 (0.05, 50) - [ 62 ]Fe3O4@N-HPCNs (6 nm) 521 (0.1) 54% 1240 (0.1, 100) 700 (1); 600 (2) [ 63 ]CoMoO4 NPs (2~10 nm) 1051 (0.2) 72% 1185 (0.2, 100) 900 (1); 850 (2) [ 77 ]CoSnO3/Au cube (70 nm) 1693 (0.2) 68% 1615 (0.2, 100) 1425 (1); 1289 (2) [ 65 ]NiFe2O4 NPs (20 nm) 1177 (0.1) 79% 1390 (0.1, 20) 823 (1); 725 (3) [ 70 ]Zn x Co3-x O4 (10 nm)967 (0.1) 76% 990 (0.1, 50) 1020 (0.9); 988 (2.7) [ 79 ]Ni x Co3-x O4 (40 nm)1133 (0.1) 70% 1109 (0.1, 100) 864 (1); 728 (2) [ 80 ]
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Shiyou ZHENG, Fei DONG, Yuepeng PANG, Pan HAN, Junhe YANG.
Paper Information
Category: REVIEW
Received: Mar. 16, 2020
Accepted: --
Published Online: Mar. 10, 2021
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