4.6 (87) · € 14.00 · En Stock
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.
Correlation between the Metal and Organic Components, Structure Property, and Gas-Adsorption Capacity of Metal–Organic Frameworks
Metal‐organic framework derived porous structures towards lithium rechargeable batteries - Han - 2023 - EcoMat - Wiley Online Library
Achieving High CO2 Photoreduction Activity by Conductive Crosslinks of Metal–Organic Framework
Toward Scaling Up Nanocages to Trap Noble Gases
Studying Argon Gas Trapped in Two-Dimensional Array of Tiny Cages - Research & Development World
Water- and acid-stable self-passivated dihafnium sulfide electride and its persistent electrocatalytic reaction
Immobilization of single argon atoms in nano-cages of two-dimensional zeolite model systems
Immobilization of single argon atoms in nano-cages of two-dimensional zeolite model systems
Two-Dimensional Materials for High-Performance Oxygen Evolution Reaction: Fundamentals, Recent Progress, and Improving Strategies
Magnetic Dioxygen Clathrate Hydrates: A Type of Promising Building Blocks for Icy Crystalline Materials
Dissipative Formation of Covalent Basket Cages - Liyana Gunawardana - 2022 - Angewandte Chemie International Edition - Wiley Online Library