With the rapid growth in demand for effective and renewable energy, the hydrogen era has
begun. To meet commercial requirements, efficient hydrogen storage techniques are …

Low-cost walnut shell-based carbons with high microporosity were prepared by simple one-
step carbonization with chemical activation using KOH, exhibiting the promising potential to …

Light hydrocarbons (LHs) separation is an important process in petrochemical industry. The
current separation technology predominantly relies on cryogenic distillation, which results in …

The development and in-depth characterization of multifunctional materials with versatile
use in energy and environmental applications has been a topic of on-going investigations. In …

Future energy sources like hydrogen (H 2) have been viewed as a viable substitute for fossil
fuels. To develop a sustainable H 2 economy, efficient means of storing H 2 is an urgent …

For the commercialization of hydrogen energy, a technology enabling safe storage and the
transport of large amounts of hydrogen is needed. Porous materials are attracting attention …

Nanoporous materials have been developed as carbon dioxide (CO2)-capturing materials.
In carbonaceous materials, physical activation by steam or CO2 is a common top-down …

Understanding the influence of pore structure on hydrogen storage behaviour is
fundamental to develop high-performance hydrogen adsorbents. Nevertheless, there are …

Demand for hybrid energy storage systems is growing, but electric double-layer capacitors
(EDLCs) have insufficient output characteristics because of the microporous structure of the …

Hydrogen storage based on physisorption into microporous materials is considered as one
of the most promising technology to store and release hydrogen safely and economically …