The influence of two types of graphene nanoplatelets (GNPs) on the physico-mechanical properties of linear low-density polyethylene (LLDPE) was investigated. The addition of these two types of GNPs – designated as grades C and M – enhanced the thermal conductivity of the LLDPE, with a more ...
The development of silicon semiconductor technology has produced breakthroughs in electronics—from the microprocessor in the late 1960s to early 1970s, to automation, computers and smartphones—by downscaling the physical size of devices and wires to the nanometre regime. Now, graphene and related t...
properties of graphene are unique as it is a zero-bandgap semiconductor (Fig. 6.1B), which ensures its highelectron mobility, while also makes it challengeable for utilizing graphene in electronic devices (e.g., FETs). In the last several decades, graphene-based materialshave been extensively ...
Graphene coating onto metal mesh structures is a promising approach to protect against corrosion and oxidation. It can also lead to mechanically durable hydrophobic surfaces with accurately preservation of other beneficial properties of the mesh structure, such as the porosity, roughness and hydrophobicity...
A definite example, chosen for its relevance in light of current experiments in graphene nanostructures, is the optimization of the experimental parameters that generate a prescribed spatial profile of pseudomagnetic fields in graphene. But the method is general enough to accommodate a multitude of ...
Graphene is considered the future revolutionary material. For its development, it is of fundamental importance to evaluate the safety profile and the impact on health. Graphene is part of a bigger family which has been identified as the graphene family nanomaterials (GFNs). Clarify...
Stability and Elasticity of Quasi-Hexagonal Fullerene Monolayer from First-Principles Study 2023, Crystals Emerging properties of carbon based 2D material beyond graphene 2022, Journal of Physics Condensed Matter B<inf>2</inf>S<inf>3</inf>monolayer: A two-dimensional direct-gap semiconductor with tu...
Conventional epitaxy is of limited application, but by placing a monolayer of graphene between the substrate and the so-called epilayer grown on top, its scope can be substantially extended. Epitaxy is widely used by the semiconductor industry to produce
Key to understanding the 2D MIT is the study of metallic transport near the transition. In 3D materials, it is known that weak-localization (WL) and enhanced electron-electron interactions (EEI) control the metallic transport properties near the MIT. For metallic graphene with moderately high ...