Fundamental aspects and actual developments of selective CO2 capture from relevant
sources (flue gas or air) by reversible physisorption are critically reviewed. Thermodynamic …

In the global transition to a sustainable low‐carbon economy, CO2 capture and storage
technology still plays a critical role for deep emission reduction, particularly for the stationary …

The capture and separation of traces and concentrated CO 2 from important commodities
such as CH 4, H 2, O 2 and N 2, is becoming important in many areas related to energy …

CALF-20 is a zinc-triazole-oxalate-based metal–organic framework (MOF) that exhibits
selective CO2 physisorption, which makes it attractive for potential applications in CO2 …

CALF-20, a Zn-triazolate-based metal–organic framework (MOF), is one of the most
promising adsorbent materials for CO2 capture. However, competitive adsorption of water …

A novel Zn–MOF {[Zn2 (XN) 2 (IPA) 2]· 2H2O} n (1)(XN= 4′-(4-pyridine) 4, 2′: 2′, 4′′-
terpyridine, IPA= isophthalic acid) was obtained and structurally characterized, and it …

Carbon capture and storage (CCS) technologies are the “knight in shining armor” that can
save humanity from burnout in the longer term, minimizing damage from CO2 emissions by …

Removing CO2 impurity is an essential industrial process in the purification of hydrocarbons.
The most promising strategy is the one-step collection of high-purity hydrocarbons by …

An excellent performance for the kinetic separation of propene and propane is realized in
two microporous MOF analogues, namely Zn (ox) 0.5 (trz) and Zn (ox) 0.5 (atrz). The great …

Adsorption‐based carbon capture has been recognized as an attractive method for
mitigating global warming. Metal–organic frameworks (MOFs) are promising candidate …