Theoretical studies on electronic, magnetic and optical properties of two dimensional transition metal trihalides
Two dimensional transition metal trihalides have drawn attention over the years due to their
intrinsic ferromagnetism and associated large anisotropy at nanoscale. The interactions …
intrinsic ferromagnetism and associated large anisotropy at nanoscale. The interactions …
Application of the real space decimation method in determining intricate electronic phases of matter: a review
The real space decimation method has been successfully applied over the years to
understand the critical phenomena as well as the nature of single particle excitations in …
understand the critical phenomena as well as the nature of single particle excitations in …
Two novel phases of germa-graphene: Prediction, electronic and transport applications
In search of potential candidates for thermoelectric energy conversion, graphene and its
derivatives always enthralled researchers for their exotic characteristics. Experimental …
derivatives always enthralled researchers for their exotic characteristics. Experimental …
Spontaneous Dumbbell Formations via Surface Functionalization of the C3N Monolayer with Versatile Electronic and Mechanical Properties
This article theoretically explores the formation of dumbbell (DB)-like structures by elemental
adsorption on the recently synthesized C3N monolayer. Owing to the repulsion from N …
adsorption on the recently synthesized C3N monolayer. Owing to the repulsion from N …
Stone–Wales Decorated Phagraphene: A Potential Candidate for Supercapacitor Electrodes and Thermal Transport
Carbon-based electrical double-layer capacitors or EDLC supercapacitors have recently
gained much attention due to their cost-effectiveness, environment friendliness, and stable …
gained much attention due to their cost-effectiveness, environment friendliness, and stable …
Intriguing topological signatures in newly predicted family of Dumbbell C3NX (X= C, Si, Ge) and its quasi-1D derivatives
Two-dimensional carbon nitride materials have been the center of attention for their diverse
usage in energy harvesting, environmental remediation and nanoelectronic applications. A …
usage in energy harvesting, environmental remediation and nanoelectronic applications. A …
Two-dimensional carbon materials with an anisotropic Dirac cone: high stability and tunable Fermi velocity
S Liu, H Wang, F Ma, H Du, B Liu - Physical Chemistry Chemical …, 2022 - pubs.rsc.org
Among two-dimensional (2D) materials, Dirac-cone materials have attracted much attention
due to their extraordinary electrical properties. In this work, we propose a new 2D carbon …
due to their extraordinary electrical properties. In this work, we propose a new 2D carbon …
Optical and Thermoelectric Behavior of Phagraphene with Site‐Specific B‐N Co‐Do**
Phagraphene is a theoretically predicted sp 2 sp^2 hybridized, se‐mimetallic allotrope of
graphene. The semimetallic nature of phagraphene is robust against external strain and B …
graphene. The semimetallic nature of phagraphene is robust against external strain and B …
Worm-graphene: A two-dimensional orthorhombic carbon semimetal with massless Dirac fermion
D Bhattacharya, D Jana - Applied Surface Science, 2022 - Elsevier
Low energy Dirac material of carbon other than graphene has always enthralled
researchers for their unique properties. Based on first-principles calculation we propose a …
researchers for their unique properties. Based on first-principles calculation we propose a …
TPO12-graphene: A new two-dimensional metallic carbon with 4-5 ring for Lithium ion battery
D Bhattacharya, D Jana - Applied Surface Science, 2024 - Elsevier
For many decades, the stability of two-dimensional carbon structures involving connected 4-
5 ring remained speculative. Recently, some of the planar carbon structures with connected …
5 ring remained speculative. Recently, some of the planar carbon structures with connected …