| Literature DB >> 30756450 |
Jian Zhang1,2, Jiawei Wan1, Jiangyan Wang1, Hao Ren1,3, Ranbo Yu3, Lin Gu4, Yunling Liu2, Shouhua Feng2, Dan Wang1,5.
Abstract
Herein, we present heterogeneous hollow multi-shelled structures (HoMSs) prepared by exploiting the properties of the metal-organic framework (MOFs) casing. Through accurately controlling the transformation of MOF layer into different heterogeneous casings, we can precisely design HoMSs of SnO2 @Fe2 O3 (MOF) and SnO2 @FeOx -C(MOF), which not only retain properties of the original SnO2 -HoMSs, but also structural information from the MOFs. Tested as anode materials in LIBs, SnO2 @Fe2 O3 (MOF)-HoMSs demonstrate superior lithium-storage capacity and cycling stability to the original SnO2 -HoMSs, which can be attributed to the topological features from the MOF casing. Making a sharp contrast to the electrodes of SnO2 @Fe2 O3 (particle)-HoMSs fabricated by hydrothermal method, the capacity retention after 100 cycles for the SnO2 @Fe2 O3 (MOF)-HoMSs is about eight times higher than that of the SnO2 @Fe2 O3 (particle)-HoMS.Entities:
Keywords: hollow multi-shelled structures; lithium storage; lithium-ion batteries; metal-organic frameworks; structural information
Year: 2019 PMID: 30756450 DOI: 10.1002/anie.201814563
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336