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 …

Materials and processes for chemical separations must be used in complex environments to
have an impact in many practical settings. Despite these complexities, much research on …

Over 14 000 porous, three-dimensional metal–organic framework structures are compiled
and analyzed as a part of an update to the Computation-Ready, Experimental Metal …

This work reported a facile one-step method for constructing hollow tubular ZnIn 2 S 4
modified by metal-organic-framework-layers (MOFL) with In-MOF as precursor to be efficient …

Metal-organic frameworks (MOFs) are the most promising porous adsorbents for methane
storage; however, the highest reported storage capacities of about 270 cm 3 (STP) cm− 3 at …

With the boom of modern industry, the demand for precious metals palladium (Pd) and gold
(Au) is increasing. However, the discharge of Pd (II) and Au (III) wastewater has caused …

The experimental determination of mixed gas isotherms is challenging and thus rarely
performed. Nevertheless, characterizing the performance of adsorbents toward mixtures of …

Ideal adsorbed solution theory (IAST) is a widely-used thermodynamic framework to readily
predict mixed-gas adsorption isotherms from a set of pure-component adsorption isotherms …

Exploration of new materials for lithium ion battery is a continuous challenge to meet the
increasing demand for energy storage. Herein, a novel conductive metal-organic framework …

Adsorptive hydrogen storage is a desirable technology for fuel cell vehicles, and efficiently
identifying the optimal storage temperature requires modeling hydrogen loading as a …