Germanium‐based monoelemental and binary two‐dimensional materials: Theoretical and experimental investigations and promising applications
Abstract Two‐dimensional (2D) materials based on group IVA elements have attracted
extensive attention owing to their rich chemical structures and novel properties. This …
extensive attention owing to their rich chemical structures and novel properties. This …
[HTML][HTML] Emerging borophene two-dimensional nanomaterials for hydrogen storage
The growing demand for energy and the need to reduce the carbon footprint has made
green hydrogen a promising alternative to traditional fossil fuels. Green hydrogen is …
green hydrogen a promising alternative to traditional fossil fuels. Green hydrogen is …
A reversible hydrogen storage material of Li-decorated two-dimensional (2D) C4N monolayer: First principles calculations
Y Zhang, P Liu, X Zhu, Z Liu - International Journal of Hydrogen Energy, 2021 - Elsevier
Abstract Two-dimensional (2D) materials can be regarded as potential hydrogen storage
candidates because of their splendid chemical stability and high specific surface area …
candidates because of their splendid chemical stability and high specific surface area …
NH3 capture and detection by metal-decorated germanene: a DFT study
We report an investigation of the adsorption of ammonia (NH3) on pristine, alkali (Li, Na, K),
alkaline earth (Mg, Ca), and transition metal (Sc, Pd, and Ag) decorated germanene using a …
alkaline earth (Mg, Ca), and transition metal (Sc, Pd, and Ag) decorated germanene using a …
Light metal decorated graphene-like Si2BN monolayers as hydrogen storage media: A DFT investigation
The hydrogen storage properties of an alkali metal (Li, Na, K) or alkaline earth metal (Be,
Mg, Ca) decorated Si 2 BN monolayer were studied based on first-principles calculations …
Mg, Ca) decorated Si 2 BN monolayer were studied based on first-principles calculations …
Reversible hydrogen storage tendency of light-metal (Li/Na/K) decorated carbon nitride (C9N4) monolayer
SP Kaur, T Hussain, T Kaewmaraya… - International Journal of …, 2023 - Elsevier
The emergence of hydrogen (H 2) as a future carrier of energy and the issue related to its
storage leads to the exploration of two-dimensional materials, which have the potential to be …
storage leads to the exploration of two-dimensional materials, which have the potential to be …
Enhanced reversible hydrogen storage performance of light metal-decorated boron-doped siligene: a DFT study
The use of nanomaterials for hydrogen storage could play a very important role in the large-
scale utilization of hydrogen as an energy source. However, nowadays several potential …
scale utilization of hydrogen as an energy source. However, nowadays several potential …
A DFT investigation: high-capacity hydrogen storage in metal-decorated doped germanene
Germanene is a two-dimensional nanomaterial that has been successfully synthesized and
has promising applications in sensing and energy storage. Recent research has focused on …
has promising applications in sensing and energy storage. Recent research has focused on …
Empowering hydrogen storage performance of B4C3 monolayer through decoration with lithium: A DFT study
R Rahimi, M Solimannejad - Surfaces and Interfaces, 2022 - Elsevier
This paper explores the merits of a recently proposed 2D material, the B 4 C 3 monolayer,
for hydrogen storage by adsorption. The monolayer is decorated by Li to enhance …
for hydrogen storage by adsorption. The monolayer is decorated by Li to enhance …
Transition metal-decorated germanene for NO, N2 and O2 sensing: A DFT study
Detecting hazardous and toxic gasses is important to avoid harmful effects on human health
and two-dimensional nanostructures have emerged as candidate materials for sensing or …
and two-dimensional nanostructures have emerged as candidate materials for sensing or …