In terms of net intensification in the greenhouse effect ie., rise of global temperature which
has triggered melting of glacier thus increasing sea level and acidification of sea, carbon …

Covalent organic frameworks (COFs), constructed with the light atoms such as carbon,
nitrogen, oxygen, borane etc. via covalent bonds, represent a promising class of structurally …

Microporous polymers are covalently bound, entirely organic materials which possess very
high surface areas. These materials have been intensively studied within recent years and …

Excess carbon dioxide (CO2) emissions and their inevitable consequences continue to
stimulate hard debate and awareness in both academic and public spaces, despite the …

This work reports on the preparation and examination of biomass-derived activated carbons
featuring high CO 2 adsorption capacity. A detailed micropore structure analysis and surface …

Triazine-based covalent organic polymers (COPs) constructed from triazine or nitrile
containing precursors via covalent bonding are becoming an important sub-class of porous …

This review concentrates on the advances of atomistic molecular simulations to design and
evaluate amorphous microporous polymeric materials for CO2 capture and separations. A …

The sharply rising level of atmospheric carbon dioxide resulting from anthropogenic
emissions is one of the greatest environmental concerns nowadays. Capture and storage of …

Activated carbon material is considered as a promising porous motif for the adsorption and
storage applications. Activated carbon materials were prepared from biomass (gelatin and …

A new triazine functionalized hexagonally ordered covalent organic polymer (TRITER-1) has
been synthesized via the Schiff-base condensation reaction between a tailor made triamine …