Unveiled Supercapacitive Performance of Se‐doped Graphene Nanoarchitectonics Prepared via Supercritical Fluid Technique
Doping of graphene with variety of heteroatoms is presently focused for electrochemical
supercapacitor applications because it functions as a hybrid supercapacitor. Herewith, we …
supercapacitor applications because it functions as a hybrid supercapacitor. Herewith, we …
Supercritical fluid assisted synthesis of S-doped graphene and its symmetric supercapacitor performance evaluation using different electrolytes
Enhancement in supercapacitive behaviour of heteroatom doped graphene could be
possible only due to redox behaviour by heteroatoms. Here, we report that the sulphur …
possible only due to redox behaviour by heteroatoms. Here, we report that the sulphur …
Symmetric electrochemical supercapacitor performance evaluation of N-doped graphene prepared via supercritical fluid processing
Here, the fast and shorter duration synthesis route was proposed for the production of N-
doped graphene by supercritical fluid method involving ammonium oxalate as a source of …
doped graphene by supercritical fluid method involving ammonium oxalate as a source of …
High performance supercapacitor using N-doped graphene prepared via supercritical fluid processing with an oxime nitrogen source
SS Balaji, A Elavarasan, M Sathish - Electrochimica Acta, 2016 - Elsevier
Heteroatom doped graphene has been proved for its promising applications in
electrochemical energy storage systems. Here, nitrogen (N) doped graphene was prepared …
electrochemical energy storage systems. Here, nitrogen (N) doped graphene was prepared …
Investigations on the nature of electrolyte on the electrochemical supercapacitor performance of heteroatom doped graphene
A rapid facile and one-pot formation of N-doped graphene by benzimidazole as a
heterocyclic nitrogen source was explored by supercritical fluid technique. Here, we have …
heterocyclic nitrogen source was explored by supercritical fluid technique. Here, we have …
Enhanced electrochemical performance of supercritical fluid aided P-doped graphene nanoflakes by I3−/I− redox couple
SS Balaji, M Sandhiya, M Sathish - Journal of Energy Storage, 2021 - Elsevier
Heteroatom doped graphene framework is considered as a promising candidate for
electrochemical hybrid supercapacitor applications. Herein, we report the synthesis of P …
electrochemical hybrid supercapacitor applications. Herein, we report the synthesis of P …
Highly nitrogen-doped graphene anchored with Co3O4 nanoparticles as supercapacitor electrode with enhanced electrochemical performance
X Liu, Z Wu, Y Yin - Synthetic Metals, 2017 - Elsevier
Chemical doping with heterogeneous atoms is an effective method to improve the intrinsic
properties of graphene. In this work, a competitive type of highly nitrogen-doped graphene …
properties of graphene. In this work, a competitive type of highly nitrogen-doped graphene …
Tuning and understanding the supercapacitance of heteroatom-doped graphene
Carbon nanomaterials are promising for making high-performance supercapacitors.
However, their specific capacitances and energy densities still need further improvement for …
However, their specific capacitances and energy densities still need further improvement for …
Performance evaluation of B-doped graphene prepared via two different methods in symmetric supercapacitor using various electrolytes
SS Balaji, M Karnan, P Anandhaganesh… - Applied Surface …, 2019 - Elsevier
Here, the boron-doped graphene was produced through both supercritical fluid processing
as well as hydrothermal route by means of boric acid as a boron source. The availability of …
as well as hydrothermal route by means of boric acid as a boron source. The availability of …
[HTML][HTML] Recent progress in graphene and its derived hybrid materials for high-performance supercapacitor electrode applications
Graphene, the most fascinating 2D form of carbon with closely packed carbon atoms
arranged in a layer, needs more attention in various fields. For its unique electrical …
arranged in a layer, needs more attention in various fields. For its unique electrical …