The remarkable mechanical, electrical, and thermal capabilities of monolayer graphene
make it a wonder substance. As the number of layers in graphene flakes increases to few …

Self-standing vertically oriented carbon nanostructures (VCNs) were synthesized using a
large-scale microwave plasma under low-pressure conditions, employing methane as a …

In this work, CO 2-activated carbons were produced from microcrystalline cellulose using
microwave heating during activation. Activations were thus completed at 400° C to burn-offs …

Fourier‐transform infrared spectroscopy and proton‐transfer‐reaction–mass spectrometry
are used in a complementary way to study gas‐phase processes during decomposition of …

Hybrid graphene-based nanostructures are considered promising materials for energy
storage applications. However, the synthesis of high-quality hybrid graphene nanostructures …

Graphene has received intensive research interest in various areas due to its outstanding
mechanical, electrical properties, high specific surface area and 2D flexible structure …

Efficient gas-phase synthesis of few-layer graphene nanosheets (GNS) is based on the
controlled formation of the high-temperature environment and the reaction pathway of gas …

Free-standing nitrogen-doped graphene was synthesized using a magnetically rotating arc
plasma process at atmospheric pressure in a single-step and controllable process that used …

Abstract Microwave-induced plasmas (MIPs), and specifically the TIAGO device (Torche à
Injection Axiale sur Guide d'Ondes), offer a streamlined, cost-effective, and environmentally …

This study reveals the impact of the activation with microwave and conventional heating
sources on textural properties and CO 2 uptake of a mixed plastic-based char. Two mixed …