Studying Argon Gas Trapped in Two-Dimensional Array of Tiny Cages

For the first time, scientists have trapped a noble gas in a two-dimensional porous structure at room temperature. This achievement will enable detailed studies of individual gas atoms in confinement—research that could inform the design of new materials for gas separation and nuclear waste remediation.

a) Synthesis of CoNPs using Co2(CO)8 and pABA in 1,2-DCB and their

Engineering Organic Macrocycles and Cages: Versatile Bonding Approaches - Huang - 2015 - Chemistry – An Asian Journal - Wiley Online Library

Emergent behavior in nanoconfined molecular containers - ScienceDirect

Crystals, Free Full-Text

Metal–organic framework - Wikipedia

Nuclear Magnetic Resonance Cryoporometry Study of Solid–Liquid Equilibria in Interconnected Spherical Nanocages

Two-Dimensional Ultrathin Silica Films

Exploring the Gas‐Phase Formation and Chemical Reactivity of Highly Reduced M8L6 Coordination Cages - Pfrunder - 2022 - Angewandte Chemie International Edition - Wiley Online Library

Magnetic Dioxygen Clathrate Hydrates: A Type of Promising Building Blocks for Icy Crystalline Materials

Correlation between the Metal and Organic Components, Structure Property, and Gas-Adsorption Capacity of Metal–Organic Frameworks

Computational design of magnetic molecules and their environment using quantum chemistry, machine learning and multiscale simulations

Emergent Phenomena in Magnetic Two-Dimensional Materials and van der Waals Heterostructures

Schematic drawing of the experimental setup, including the microwave