Hierarchical hollow dual Core-Shell carbon nanowall-encapsulated p-n SnO/SnO2 heterostructured anode for high-performance lithium-ion-based energy storage
- Authors
- Kim, A-Young; Ardhi, Ryanda Enggar Anugrah; Liu, Guicheng; Kim, Ji Young; Shin, Hyun-Jin; Byun, Dongjin; Lee, Joong Kee
- Issue Date
- 2019-11
- Publisher
- PERGAMON-ELSEVIER SCIENCE LTD
- Citation
- CARBON, v.153, pp.62 - 72
- Abstract
- A hierarchical hollow SnO/SnO2 heterostructure anode surrounded by a dual carbon layer (DCL@SnO/SnO2), inner (host) and outer carbon layers, was successfully designed via a simple hydrothermal method with a single Sn precursor to achieving high-performance Li-ion batteries (LIBs) and Li-ion capacitors (LICs). The carbon nanotube (CNT)-based inner carbon host and an ultrathin outer amorphous carbon layer introduced at the SnO/SnO2 heterostructure had good elasticity and high electrical properties to prevent volume change and ensure fast Li-ion transport during cycling, respectively. Meanwhile, the SnO/SnO2 heterostructure comprising p-type SnO and n-type SnO2 facilitated further fast interfacial Liion transfer within the p-n SnO/SnO2 heterojunction anode via the acceleration effect induced by the built-in electric field (BEF). The resulting half cells LIBs consisting DCL@SnO/SnO2 anode shows a high reversible specific capacity of 902.1 mAh g(-1) after 500 cycles at a current density of 1400 mA g(-1). The specific capacity of 347.04 mAh g(-1) was still maintained even at a high current density of 10 000 mA g(-1). Moreover, the maximum energy and power density of 125 W kg(-1) and 200 Wh kg(-1), respectively, were achieved from the half cells LIC comprising DCL@SnO/SnO2 anode (LIC-DCL@SnO/SnO2). (C) 2019 Elsevier Ltd. All rights reserved.
- Keywords
- ELECTRODE; TINB2O7; ELECTRODE; TINB2O7; Hierarchical; pen SnO/SnO2 heterostructure; hollow dual CoreeShell carbon; lithium-ion-based energy storage
- ISSN
- 0008-6223
- URI
- https://pubs.kist.re.kr/handle/201004/119419
- DOI
- 10.1016/j.carbon.2019.07.001
- Appears in Collections:
- KIST Article > 2019
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