Atomic-layer-deposition alumina induced carbon on porous NixCo1-xO nanonets for enhanced pseudocapacitive and Li-ion storage performance

Nanotechnology

Volumn 26, Issue 1, 2015, Pages

  Guan, Cao ^a,b   Wang, Yadong ^c   Zacharias, Margit ^d   Wang, John ^a   Fan, Hong Jin ^b  

^a NATIONAL UNIVERSITY OF SINGAPORE   (Singapore)

^b NANYANG TECHNOLOGICAL UNIVERSITY   (Singapore)

^c SCHOOL OF ENGINEERING   (Singapore)

^d UNIVERSITY OF FREIBURG   (Germany)

Author keywords

atomic layer deposition; carbon; energy storage; metal oxides

Indexed keywords

ALUMINA; AMORPHOUS CARBON; ATOMS; CARBON; CARBON CARBON COMPOSITES; DEPOSITION; ELECTRODES; ENERGY STORAGE; LITHIUM ALLOYS; LITHIUM-ION BATTERIES; METALLIC COMPOUNDS; METALS; NANOSHEETS; NICKEL;

COMPOSITE NANOSTRUCTURES; ELECTRICAL CONDUCTIVITY; ENERGY AND ENVIRONMENT; HIERARCHICAL STRUCTURES; HIGH PERFORMANCE MATERIAL; HYDROTHERMAL METHODS; MESOPOROUS METAL OXIDES; METAL OXIDES;

ATOMIC LAYER DEPOSITION;

EID: 84916886647     PISSN: 09574484     EISSN: 13616528     Source Type: Journal    
DOI: 10.1088/0957-4484/26/1/014001     Document Type: Article

References (53)

1. Wang G, Zhang L and Zhang J 2012 A review of electrode materials for electrochemical supercapacitors Chem. Soc. Rev. 41 797-828
2. Cheng C and Fan H J 2012 Branched nanowires: synthesis and energy applications Nano Today 7 327-43
3. Mukherjee R, Krishnan R, Lu T-M and Koratkar N 2012 Nanostructured electrodes for high-power lithium ion batteries Nano Energy 1 518-33
4. Jiang J, Li Y, Liu J, Huang X, Yuan C and Lou X W 2012 Recent advances in metal oxide-based electrode architecture design for electrochemical energy storage Adv. Mater. 24 5166-80
5. Ban C, Xie M, Sun X, Travis J J, Wang G, Sun H, Dillon A C, Lian J and George S M 2013 Atomic layer deposition of amorphous TiO 2 on graphene as an anode for Li-ion batteries Nanotechnology 24 424002
6. Wang H and Dai H 2013 Strongly coupled inorganic-nano-carbon hybrid materials for energy storage Chem. Soc. Rev. 42 3088-113
7. Cho W, Lee Y H, Lee H J and Oh M 2011 Multi ball-in-ball hybrid metal oxides Adv. Mater. 23 1720-3
8. Shao M, Ning F, Zhao Y, Zhao J, Wei M, Evans D G and Duan X 2012 Core-shell layered double hydroxide microspheres with tunable interior architecture for supercapacitors Chem. Mater. 24 1192-7
9. Liu J, Xia H, Xue D and Lu L 2009 Double-shelled nanocapsules of V2O5-based composites as high-performance anode and cathode materials for Li Ion batteries J. Am. Chem. Soc. 131 12086-7
10. Xiao Y, Liu S, Li F, Zhang A, Zhao J, Fang S and Jia D 2012 3D hierarchical Co3O4 twin-spheres with an urchin-like structure: large-scale synthesis, multistep-splitting growth, and electrochemical pseudocapacitors Adv. Funct. Mater. 22 4052-9
11. Lai X, Halpert J E and Wang D 2012 Recent advances in micro-/nano-structured hollow spheres for energy applications: from simple to complex systems Energy Environ. Sci. 5 5604-18
12. Guan C, Xia X, Meng N, Zeng Z, Cao X, Soci C, Zhang H and Fan H J 2012 Hollow core-shell nanostructure supercapacitor electrodes: gap matters Energy Environ. Sci. 5 9085-90
13. Zhou C and Liu J 2014 Carbon nanotube network film directly grown on carbon cloth for high-performance solid-state flexible supercapacitors Nanotechnology 25 035402
14. Zhou R, Meng C, Zhu F, Li Q, Liu C, Fan S and Jiang K 2010 High-performance supercapacitors using a nanoporous current collector made from super-aligned carbon nanotubes Nanotechnology 21 345701
15. Wu H et al 2012 Stable cycling of double-walled silicon nanotube battery anodes through solid-electrolyte interphase control Nat Nano 7 310-5
16. Hwang T H, Lee Y M, Kong B-S, Seo J-S and Choi J W 2011 Electrospun core-shell fibers for robust silicon nanoparticle-based lithium ion battery anodes Nano Lett. 12 802-7
17. Zhao Y, Li J, Wu C, Ding Y and Guan L 2012 A yolk-shell Fe3O4@C composite as an anode material for high-rate lithium batteries ChemPlusChem 77 748-51
18. Liu J, Cao G, Yang Z, Wang D, Dubois D, Zhou X, Graff G L, Pederson L R and Zhang J-G 2008 Oriented nanostructures for energy conversion and storage ChemSusChem 1 676-97
19. Cao X, Shi Y, Shi W, Lu G, Huang X, Yan Q, Zhang Q and Zhang H 2011 Preparation of novel 3D graphene networks for supercapacitor applications Small 7 3163-8
20. Guan C, Liu J, Cheng C, Li H, Li X, Zhou W, Zhang H and Fan H J 2011 Hybrid structure of cobalt monoxide nanowire @ nickel hydroxidenitrate nanoflake aligned on nickel foam for high-rate supercapacitor Energy Environ. Sci. 4 4496-9
21. Ha D-H, Islam M A and Robinson R D 2012 Binder-free and carbon-free nanoparticle batteries: a method for nanoparticle electrodes without polymeric binders or carbon black Nano Lett. 12 5122-30
22. He Y, Chen W, Li X, Zhang Z, Fu J, Zhao C and Xie E 2012 Freestanding three-dimensional Graphene/MnO2 composite networks as ultralight and flexible supercapacitor electrodes ACS Nano 7 174-82
23. Zhong J-H, Wang A-L, Li G-R, Wang J-W, Ou Y-N and Tong Y-X 2012 Co3O4/Ni(OH)2 composite mesoporous nanosheet networks as a promising electrode for supercapacitor applications J. Mater. Chem. 22 5656-65
24. Liu Y et al 2012 Architecturing hierarchical function layers on self-assembled viral templates as 3D nano-array electrodes for integrated Li-Ion microbatteries Nano Lett. 12 5565-70
25. Li J, Yang M, Wei J and Zhou Z 2012 Preparation and electrochemical performances of doughnut-like Ni(OH)2-Co(OH)2 composites as pseudocapacitor materials Nanoscale 4 4498-503
26. Zhou W et al 2011 A general strategy toward graphene@metal oxide core-shell nanostructures for high-performance lithium storage Energy Environ. Sci. 4 4954-61
27. Chen Y M, Cai J H, Huang Y S, Lee K Y and Tsai D S 2011 Preparation and characterization of iridium dioxide-carbon nanotube nanocomposites for supercapacitors Nanotechnology 22 115706
28. Pasero D, Reeves N and West A R 2005 Co-doped Mn3O4: a possible anode material for lithium batteries J. Power Sources 141 156-8
29. Boukhalfa S, Evanoff K and Yushin G 2012 Atomic layer deposition of vanadium oxide on carbon nanotubes for high-power supercapacitor electrodes Energy Environ. Sci. 5 6872-9
30. Yang L, Wang S, Mao J, Deng J, Gao Q, Tang Y and Schmidt O G 2012 Hierarchical MoS2/Polyaniline nanowires with excellent electrochemical performance for lithium-ion batteries Adv. Mater. 25 1180-4
31. Huang F and Chen D 2012 Towards the upper bound of electrochemical performance of ACNT@polyaniline arrays as supercapacitors Energy Environ. Sci. 5 5833-41
32. Han J, Dou Y, Zhao J, Wei M, Evans D G and Duan X 2012 Flexible CoAl LDH@PEDOT core/shell nanoplatelet array for high-performance energy storage Small 9 98-106
33. Yu G, Hu L, Liu N, Wang H, Vosgueritchian M, Yang Y, Cui Y and Bao Z 2011 Enhancing the supercapacitor performance of Graphene/MnO2 nanostructured electrodes by conductive wrapping Nano Lett. 11 4438-42
34. Guan C, Zeng Z, Li X, Cao X, Fan Y, Xia X, Pan G, Zhang H and Fan H J 2014 Atomic-layer-deposition-assisted formation of carbon nanoflakes on metal oxides and energy storage application Small 10 300-7
35. NuLi Y, Zhang P, Guo Z, Liu H, Yang J and Wang J 2009 Nickel-cobalt oxides/carbon nanoflakes as anode materials for lithium-ion batteries Mater. Res. Bull. 44 140-5
36. Yang F, Yao J, Liu F, He H, Zhou M, Xiao P and Zhang Y 2013 Ni-Co oxides nanowire arrays grown on ordered TiO2 nanotubes with high performance in supercapacitors J. Mater. Chem. A 1 594-601
37. Chien H-C, Cheng W-Y, Wang Y-H and Lu S-Y 2012 Ultrahigh specific capacitances for supercapacitors achieved by nickel cobaltite/carbon aerogel composites Adv. Funct. Mater. 22 5038-43
38. Wang H, Gao Q and Jiang L 2011 Facile approach to prepare nickel cobaltite nanowire materials for supercapacitors Small 7 2454-9
39. Guan C, Li X, Wang Z, Cao X, Soci C, Zhang H and Fan H J 2012 Nanoporous walls on macroporous foam: rational design of electrodes to push areal pseudocapacitance Adv. Mater. 24 4186-90
40. Zhu J, Sharma Y K, Zeng Z, Zhang X, Srinivasan M, Mhaisalkar S, Zhang H, Hng H H and Yan Q 2011 Cobalt oxide nanowall arrays on reduced graphene oxide sheets with controlled phase, grain size, and porosity for Li-Ion battery electrodes J. Phys. Chem. C 115 8400-6
41. Hassel M and Freund H-J 1996 High resolution XPS study of a thin CoO(111) film grown on Co(0001) Surf. Sci. Spectra 4 273-8
42. Nydegger M W, Couderc G and Langell M A 1999 Surface composition of CoxNi1-xO solid solutions by x-ray photoelectron and auger spectroscopies Appl. Surf. Sci. 147 58-66
43. Zhao X, Sanchez B M, Dobson P J and Grant P S 2011 The role of nanomaterials in redox-based supercapacitors for next generation energy storage devices Nanoscale 3 839-55
44. Lu Z, Zhu W, Lei X, Williams G R, O'Hare D, Chang Z, Sun X and Duan X 2012 High pseudocapacitive cobalt carbonate hydroxide films derived from CoAl layered double hydroxides Nanoscale 4 3640-3
45. Dong X-C, Xu H, Wang X-W, Huang Y-X, Chan-Park M B, Zhang H, Wang L-H, Huang W and Chen P 2012 3D graphene-cobalt oxide electrode for high-performance supercapacitor and enzymeless glucose detection ACS Nano 6 3206-13
46. Mai Y J, Tu J P, Xia X H, Gu C D and Wang X L 2011 Co-doped NiO nanoflake arrays toward superior anode materials for lithium ion batteries J. Power Sources 196 6388-93
47. Wang X, Li X, Sun X, Li F, Liu Q, Wang Q and He D 2011 Nanostructured NiO electrode for high rate Li-ion batteries J. Mater. Chem. 21 3571-3
48. Wang Y, Zhang H J, Lu L, Stubbs L P, Wong C C and Lin J 2010 Designed functional systems from peapod-like Co@Carbon to Co3O4@Carbon nanocomposites ACS Nano 4 4753-61
49. Wang B, Cheng J L, Wu Y P, Wang D and He D N 2012 Porous NiO fibers prepared by electrospinning as high performance anode materials for lithium ion batteries Electrochem. Commun. 23 5-8
50. Li Y, Tan B and Wu Y 2007 Mesoporous Co3O4 nanowire arrays for lithium ion batteries with high capacity and rate capability Nano Lett. 8 265-70
51. Gu Y, Wu F and Wang Y 2012 Confined volume change in Sn-Co-C ternary tube-in-tube composites for high-capacity and long-life lithium storage Adv. Funct. Mater. 23 893-9
52. Yang P, Wang G, Gao Z, Chen H, Wang Y and Qin Y 2013 Uniform and conformal carbon nanofilms produced based on molecular layer deposition Materials 6 5602-12
53. Tong X, Yang P, Wang Y, Qin Y and Guo X 2014 Enhanced photoelectrochemical water splitting performance of TiO2 nanotube arrays coated with an ultrathin nitrogen-doped carbon film by molecular layer deposition Nanoscale 6 6692-700