Metal-organic frameworks (MOF) based heat transfer: A comprehensive review
Higher than a standard level, the humidity provides a suitable environment for the
pathogenic microorganisms to grow and increases energy consumption for cooling …
pathogenic microorganisms to grow and increases energy consumption for cooling …
Dynamics of heterogeneous catalytic processes at operando conditions
The rational design of high-performance catalysts is hindered by the lack of knowledge of
the structures of active sites and the reaction pathways under reaction conditions, which can …
the structures of active sites and the reaction pathways under reaction conditions, which can …
Enhanced water sorption onto bimetallic MOF-801 for energy conversion applications
Adsorption-assisted energy conversion technologies are receiving extensive attention
recently as a sustainable technology for meeting the worldwide energy demand. The …
recently as a sustainable technology for meeting the worldwide energy demand. The …
Sub-micrometer phonon mean free paths in metal–organic frameworks revealed by machine learning molecular dynamics simulations
Metal–organic frameworks (MOFs) are a family of materials that have high porosity and
structural tunability and hold great potential in various applications, many of which require a …
structural tunability and hold great potential in various applications, many of which require a …
Reversible thermal conductivity switching using flexible metal–organic frameworks
The ability to control thermal transport is critical for the design of thermal rectifiers, logic
gates, and transistors, although it remains a challenge to design materials that exhibit large …
gates, and transistors, although it remains a challenge to design materials that exhibit large …
Engineering metal–organic frameworks for adsorption-based gas separations: From process to atomic scale
Metal–organic frameworks (MOFs) are the object of intense research targeting their
deployment as adsorbents for a wide range of gas separations, such as CO2 capture …
deployment as adsorbents for a wide range of gas separations, such as CO2 capture …
Pore size dictates anisotropic thermal conductivity of two-dimensional covalent organic frameworks with adsorbed gases
Two-dimensional covalent organic frameworks (2D COFs) are a class of modular polymeric
crystals with high porosities and large surface areas, which position them as ideal …
crystals with high porosities and large surface areas, which position them as ideal …
Thermally conductive self-healing nanoporous materials based on hydrogen-bonded organic frameworks
Hydrogen-bonded organic frameworks (HOFs) are a class of nanoporous crystalline
materials formed by the assembly of organic building blocks that are held together by a …
materials formed by the assembly of organic building blocks that are held together by a …
Reversible and high-contrast thermal conductivity switching in a flexible covalent organic framework possessing negative Poisson's ratio
The ability to dynamically and reversibly control thermal transport in solid-state systems can
redefine and propel a plethora of technologies including thermal switches, diodes, and …
redefine and propel a plethora of technologies including thermal switches, diodes, and …
Benefits and complexity of defects in metal-organic frameworks
NS Portillo-Vélez, JL Obeso, JA de los Reyes… - Communications …, 2024 - nature.com
Defect engineering has developed over the last decade to become an inimitable tool with
which to shape Metal-Organic Framework (MOF) chemistry; part of an evolution in the …
which to shape Metal-Organic Framework (MOF) chemistry; part of an evolution in the …