Ultrathin nanoporous Fe3O4–carbon nanosheets with enhanced supercapacitor performance
Journal of Materials Chemistry A2012Vol. 1(6), pp. 1952–1952
Citations Over TimeTop 10% of 2012 papers
Dequan Liu, Xi Wang, Xi Wang, Xuebin Wang, Xuebin Wang, Wei Tian, Jiangwei Liu, Chunyi Zhi, Deyan He, Yoshio Bando, Dmitri Golberg
Abstract
Ultrathin nanoporous Fe3O4–carbon nanosheets (NNSs) with a high surface area of 229 m2 g−1 were synthesized by using a two-step method. The high capacitance of 163.4 F g−1 was achieved by utilizing such NNSs electrodes due to their unique feature, which is much higher than those of previously reported Fe3O4 hybrid products. The interconnected porous framework surface greatly enhanced charge transfer due to larger interfaces, and carbon nanopillars between nanosheet layers brought high conductivity.
Related Papers
- → Tremella derived ultrahigh specific surface area activated carbon for high performance supercapacitor(2017)78 cited
- → A Simple Model for Binding and Rupture of Bacterial Cells on Nanopillar Surfaces(2019)62 cited
- → Bactericidal efficacy of nanopatterned surface tuned by topography(2020)24 cited
- → NiCo2S4 Nanosheet Arrays on Carbon Cloth for Asymmetric Supercapacitors(2020)7 cited
- → Luminescent ordered arrays of nanoporous silicon nanopillars and silicon nanopillars with nanoporous shells(2013)8 cited