Title : ( Capacitive performance of electrode materials affected by the Cu2O template morphologies in graphene/polyaniline nanotube/ZIF-67 nanocages porous composite )
Authors: Sara Ramandi , Mohammad Hassan Entezari ,Abstract
Graphene/polyaniline nanotube/ZIF-67 nanocages (G/PANI-NT/Z) composites were successfully prepared in a co-precipitation manner and used as electrode material for supercapacitor application. ZIF-67 nanocages, including cube and hexapod, were designed via a simple and fast one-step Cu2O template etching route. The properties of the as-synthesized nanoparticles were perused by N2 adsorption–desorption, X-ray diffraction (XRD), field emission scanning electron microscope (FESEM), and electrochemical manners. In particular, the super-capacitive performance of the synthesized materials was perused by changing the morphology of the nanostructures. Results represent that the as-synthesized ZIF-67 nanocages maintain the shape and size of the Cu2O templates with a hollow, which depicts various capacitive demeanors. Amongst, the two morphologies, the G/PANI-NT/Z-hexapod (h) composite has a larger specific capacitance of 4400 mF g???? 1, while G/PANI-NT/Zcubic (c) has a lower one of 3630 mF g???? 1 at 10 mA g???? 1 current density. This is mainly due to the presence of ZIF-67 nanocages with hexapod morphology and a larger surface area of 73.58 m2/g in the G/PANI-NT/Z-h composite, which leads to fast interfacial electron transfer and an increase in the diffusion rate of electrolyte ions for higher power density. This demonstrates G/PANI-NT/Z-h electrode is promising for applications in renewable energy storage.
Keywords
, ZIF, 67 nanocages Cu2O template Morphological design Supercapacitor@article{paperid:1095476,
author = {Ramandi, Sara and Entezari, Mohammad Hassan},
title = {Capacitive performance of electrode materials affected by the Cu2O template morphologies in graphene/polyaniline nanotube/ZIF-67 nanocages porous composite},
journal = {Journal of Electroanalytical Chemistry},
year = {2023},
volume = {946},
month = {October},
issn = {1572-6657},
pages = {117726--117735},
numpages = {9},
keywords = {ZIF-67 nanocages
Cu2O template
Morphological design
Supercapacitor},
}
%0 Journal Article
%T Capacitive performance of electrode materials affected by the Cu2O template morphologies in graphene/polyaniline nanotube/ZIF-67 nanocages porous composite
%A Ramandi, Sara
%A Entezari, Mohammad Hassan
%J Journal of Electroanalytical Chemistry
%@ 1572-6657
%D 2023