We review the principles of formation, physical properties, and current or envisaged
applications for a wide range of carbon allotropic forms. We discuss experimental and …

As one of the representatives of nano-graphene materials, graphene nanoribbons (GNRs)
have more novel electrical properties, highly adjustable electronic properties, and …

POPGraphene is a theoretically predicted 2D carbon allotrope which presents a unit cell
with 5–8–5 carbon rings. It presents metallic behavior and has a low diffusion energy barrier …

In this article, we report theoretical investigations of topological and thermoelectric (TE)
properties of non-centrosymmetric half Heusler compounds XPtS (X= Sr, Ba) using first …

Inspired by recent progress of experimental fabrication of partial structure of the helical
graphenes, we construct helical graphene nanoribbons and study the electronic structure …

This work is a systematic investigation of electronic transport and inelastic effects of two-
terminal devices without gates composed of zigzag and armchair phagraphene nanoribbons …

We have investigated the electronic, optical, and vibrational properties of several structures
known as PhaCBNs, using first principles calculations through the formalism of the density …

In this paper is investigated the transport and electronic properties of 1-D material, such as
zigzag PhaGraphene NanoRibbons (zzPGNR) substitutionally B-and N-doped, ie, B-doped …

This work proposes an electronic transport investigation without spin polarization based on
DFT/NEGF for six Graphene-like and PhaGraphene-like heterojunctions including (57575) …

The electron transport properties of shorter peptides (ie, dipeptides) consisting of oppositely
charged amino acids have paved the way for the design of miniaturized molecular devices …