Tuning the electronic properties of MoSi2N4 by molecular do**: A first principles investigation
MoSi 2 N 4 is a recently developed 2D material that exhibits remarkable thermal,
mechanical, electronic, and optical properties. We used first principles calculations to study …
mechanical, electronic, and optical properties. We used first principles calculations to study …
Recent developments in chemical do** of graphene using experimental approaches and its applications
Graphene has been widely investigated and applied in almost all areas of science and
technology. Modulation of graphene properties is needed for its potential utilization in …
technology. Modulation of graphene properties is needed for its potential utilization in …
van der Waals Epitaxy of Organic Semiconductor Thin Films on Atomically Thin Graphene Templates for Optoelectronic Applications
Conspectus Organic semiconductors (OSCs) offer unique advantages with respect to
mechanical flexibility, low-cost processing, and tunable properties. The optical and electrical …
mechanical flexibility, low-cost processing, and tunable properties. The optical and electrical …
Modulating Carrier Density and Transport Properties of MoS2 by Organic Molecular Do** and Defect Engineering
Using first-principles calculations, we investigate the effect of molecular do** and sulfur
vacancy on the electronic properties and charge modulation of monolayer MoS2. It is found …
vacancy on the electronic properties and charge modulation of monolayer MoS2. It is found …
Exceptional optical absorption of buckled arsenene covering a broad spectral range by molecular do**
Using density functional theory calculations, we demonstrate that the electronic and optical
properties of a buckled arsenene monolayer can be tuned by molecular do**. Effective p …
properties of a buckled arsenene monolayer can be tuned by molecular do**. Effective p …
Do** two-dimensional materials: ultra-sensitive sensors, band gap tuning and ferromagnetic monolayers
The successful isolation of graphene from graphite in 2004 opened up new avenues to
study two-dimensional (2D) systems from layered materials. Since then, research on 2D …
study two-dimensional (2D) systems from layered materials. Since then, research on 2D …
Machine learning determination of the twist angle of bilayer graphene by Raman spectroscopy: implications for van der Waals heterostructures
With the increasing interest in twisted bilayer graphene (tBLG) of the past years, fast,
reliable, and nondestructive methods to precisely determine the twist angle are required …
reliable, and nondestructive methods to precisely determine the twist angle are required …
Tuning electronic behaviors of WS2 by molecular do**
K Yang, Z Cui, E Li, D Ma, Y Shen, Z Yuan… - Materials Today …, 2022 - Elsevier
WS 2 has become a hot research topic because of its excellent properties in the fields of
chemistry, physics, and material science. We investigate the structural and electronic …
chemistry, physics, and material science. We investigate the structural and electronic …
Ambipolar graphene–quantum dot phototransistors with CMOS compatibility
The hybridization of 2D materials and colloidal quantum dots (CQDs) has been
demonstrated to be an ideal platform for infrared photodetectors due to the high mobility of …
demonstrated to be an ideal platform for infrared photodetectors due to the high mobility of …
UV illumination as a method to improve the performance of gas sensors based on graphene field-effect transistors
J Park, R Rautela, N Alzate-Carvajal, S Scarfe… - ACS …, 2021 - ACS Publications
The ability to detect and recognize airborne chemical species is essential to enable
applications in security, health, and environmental monitoring. Here, we report a sensing …
applications in security, health, and environmental monitoring. Here, we report a sensing …