Ultrahigh hydrogen storage using metal-decorated defected biphenylene
Hydrogen (H 2) energy has emerged as a principal contender for renewable green energy
applications because of the ultra-high energy density and natural abundance. The …
applications because of the ultra-high energy density and natural abundance. The …
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 …
Computational evaluation of Ca-decorated nanoporous CN monolayers as high capacity and reversible hydrogen storage media
Y Yong, S Hu, X Yuan, R Gao, Q Hou… - International Journal of …, 2022 - Elsevier
Developing novel materials with high-capacity and reversible properties for storing
hydrogen (H 2) is crucial for energy treatments. We here investigated comprehensively the H …
hydrogen (H 2) is crucial for energy treatments. We here investigated comprehensively the H …
Light-metal functionalized boron monoxide monolayers as efficient hydrogen storage material: Insights from DFT simulations
Exceptionally high energy density by mass, natural abundance, widespread applications,
and environmental friendliness make hydrogen (H 2) a front-runner among clean energy …
and environmental friendliness make hydrogen (H 2) a front-runner among clean energy …
Nitrogen-doped or boron-doped twin T-graphene as advanced and reversible hydrogen storage media
F Chen, X Zhang, X Guan, S Gao, J Hao, L Li… - Applied Surface …, 2023 - Elsevier
Abstract Two-dimensional (2D) carbon-based (C-based) materials can be regarded as
potential hydrogen storage media because of their splendid chemical stability and high …
potential hydrogen storage media because of their splendid chemical stability and high …
Porous carbons: a class of nanomaterials for efficient adsorption-based hydrogen storage
Rising energy demands combined with the growing threat of climate change from
greenhouse emissions have led to great interest in hydrogen as a clean and sustainable …
greenhouse emissions have led to great interest in hydrogen as a clean and sustainable …
Superalkali functionalized two-dimensional haeckelite monolayers: A novel hydrogen storage architecture
Exploring efficient storage mediums is the key challenge to accomplish a sustainable
hydrogen economy. Material-based hydrogen (H 2) storage is safe, economically viable and …
hydrogen economy. Material-based hydrogen (H 2) storage is safe, economically viable and …
Enhanced storage capacity of hydrogen based on Li-decorated 2D BC6N under ambient conditions: First-principles study
Although two dimensional (2D) materials are good hydrogen storage materials, but they still
cannot fulfill the necessary requirements of hydrogen storage under ambient conditions …
cannot fulfill the necessary requirements of hydrogen storage under ambient conditions …
First principles study on yttrium decorated BeN4 monolayer for reversible hydrogen storage
Hydrogen fuel is emergent as a foremost alternate energy basis in conveyance and other
usages. Fundamental to the progress of hydrogen economy is benign, competent and …
usages. Fundamental to the progress of hydrogen economy is benign, competent and …
Bilayer heterostructure of boron nitride and graphene for hydrogen storage: a first-principles study
We report the hydrogen storage properties of the bilayer h-BN/Gr heterostructure using the
density functional theory calculations incorporating DFT-D2 and D3 dispersion corrections …
density functional theory calculations incorporating DFT-D2 and D3 dispersion corrections …