In recent years, vertical graphene nanowalls (VGNWs) have gained significant attention due
to their exceptional properties, including their high specific surface area, excellent electrical …

Plasma-activated carbon surfaces demonstrate an immediately enhanced surface energy,
wettability, and roughness and perform considerably well in their intended applications …

A novel metal-free amperometric sensor based on O 2/Ar plasma modified carbon
nanowalls (CNW) was successfully developed for non-enzymatic detection of hydrogen …

Abstract Vertical Graphene Nanosheets (VGN) is one of the most promising energy storage
materials in particular for electrochemical capacitor electrode applications. Yet, the intrinsic …

The realization of many promising technological applications of graphene and graphene-
based nanostructures depends on the availability of reliable, scalable, high-yield and low …

Vertical graphene is an emerging material for supercapacitor applications. Yet, its inherent
hydrophobic nature restricts the interaction with electrolyte ions, which brings in high …

Carbon nanowalls (CNWs) are vertically standing, interconnecting flake-or wall-like
collections of graphene sheets. In the present work, this material was synthesized by …

Ultra-low background current and wide potential window are simultaneously achieved on
the diamond/carbon nanowalls (D/CNWs) films albeit with high sp 2-C content. The …

We have developed surface acoustic wave (SAW) sensors with high sensitivity and a
reversible response at room temperature (RT). The sensitive area of the sensor was …

On silicon substrates, boron nitride nanosheets (BNNS) consisting of interconnected
hexagonal boron nitride nano-layers were produced via chemical vapor deposition process …