This review gives an authoritative, critical, and accessible overview of an emergent class of
fluorescent materials termed “LG@ MOF”, engineered from the nanoscale confinement of …

The variety of functionalities and porous structures inherent to metal-organic frameworks
(MOFs) together with the facile tunability of their properties makes these materials suitable …

A critical bottleneck for the use of natural gas as a transportation fuel has been the
development of materials capable of storing it in a sufficiently compact form at ambient …

Gas transport through metal-organic framework membranes (MOFs) was switched in situ by
applying an external electric field (E-field). The switching of gas permeation upon E-field …

This review spotlights the role of atomic‐level modeling in research on metal‐organic
frameworks (MOFs), especially the key methodologies of density functional theory (DFT) …

Flexibility is a unique property of metal-organic frameworks (MOFs) that differentiates them
from other rigid inorganic porous materials such as zeolites and porous silica. Flexible …

Terahertz spectroscopy has proved to be an essential tool for the study of condensed phase
materials. Terahertz spectroscopy probes the low-frequency vibrational dynamics of atoms …

Several years ago, strong coupling between electronic molecular transitions and photonic
structures was shown to modify the electronic landscape of the molecules and affect their …

Many of the proposed applications of metal–organic framework (MOF) materials may fail to
materialize if the community does not fully address the difficult fundamental work needed to …

Owing to the synergistic combination of a hybrid organic–inorganic nature and a chemically
active porous structure, metal–organic frameworks have emerged as a new class of …