Our Impactful Publications in Carbon Journal

Our Impactful Publications in Carbon Journal
We are proud to share a collection of our most cited and innovative works published in the prestigious journal Carbon, focusing on advanced materials for supercapacitors, lithium-sulfur batteries, and electrochemical sensors.
About the Journal – Carbon
• Impact Factor (2023): 10.5
• CiteScore: 20.8
• Rank: T1 in Materials Science – Multidisciplinary
• Publisher: Elsevier
• ISSN: 0008-6223
• Link: https://www.sciencedirect.com/journal/carbon
Top 3 Most Cited Works in Carbon
257 citations
High-performance supercapacitor of MnO₂/reduced graphene oxide nanocomposite on flexible carbon fiber paper
A pioneering study demonstrating excellent power and cycle life using rGO/MnO₂ on flexible substrates.
Link | Carbon, 2013
173 citations
Synthesis and antifungal activity of reduced graphene oxide nanosheets
An early exploration of graphene oxide's biological interactions and applications in biomedicine.
Link | Carbon, 2012
159 citations
N-doped reduced graphene oxide aerogel on carboxyl-modified carbon fiber paper for ionic-liquid supercapacitors
Boosting charge storage with nitrogen doping and interfacial design for ionic-liquid-based devices.
Link | Carbon, 2016
Energy Storage Innovations
High-performance MnO₂/rGO supercapacitors on flexible carbon fiber paper with outstanding power density and cycling stability.
Link
N-doped rGO aerogels on carboxyl-modified carbon paper for ionic-liquid supercapacitors.
Link
DNA-enhanced charge storage in N-doped rGO aerogels via single-strand DNA electrolyte interaction.
Link
Advanced Li–S Battery Materials
3D graphene sponge with ultrahigh pore volume to confine Li₂S₆, improving cathode stability.
Link
Ethylenediamine-functionalized carbon interlayer for strong polysulfide retention and high capacity retention.
Link
4-aminobenzoic acid-modified interlayer enabling lithium-hydrogen bond formation with polysulfides.
Link
Layer-by-layer rGO aerogel/g-C₃N₄ interlayer for enhanced cycle life in Li–S batteries.
Link
Electrocatalysis & Sensors
Graphene-coated Ni foam for hydrogen evolution reaction (HER) studied via in situ electrochemical gas chromatography.
Link
Silver nanodendrite-modified graphene electrodes for nonenzymatic hydrogen peroxide detection.
Link
Fundamental Studies
Permselective behavior of GO and rGO electrodes—crucial for ion separation and membrane applications.
Link
Antifungal activity of reduced graphene oxide nanosheets—exploring biomedical potential of graphene-based materials.
Link
These publications reflect our group's continuous pursuit of innovation in nanostructured carbon materials for sustainable energy and sensing technologies.
A heartfelt thank you to all collaborators and students who contributed to these impactful works.
#Graphene #LiSBattery #Supercapacitor #Electrocatalysis #Sensing #CarbonJournal #EnergyStorage #VISTEC #CEST