Abstract Metal–organic frameworks (MOFs), constructed by organic linkers and metal nodes,
are a new class of crystalline porous materials with significant application potentials …

Infections caused by microbes constitute a severe risk to public health and the increasing
resistance of pathogens to antibiotics has led to serious health problems in recent years …

The Crystal program for quantum-mechanical simulations of materials has been bridging the
realm of molecular quantum chemistry to the realm of solid state physics for many years …

Millions of distinct metal-organic frameworks (MOFs) can be made by combining metal
nodes and organic linkers. At present, over 90,000 MOFs have been synthesized and over …

Abstract Metal-organic frameworks (MOFs), also known as porous coordination polymers
(PCPs), are a unique class of porous crystalline materials that are constructed by metal …

Develo** algorithmic approaches for the rational design and discovery of materials can
enable us to systematically find novel materials, which can have huge technological and …

By combining metal nodes with organic linkers we can potentially synthesize millions of
possible metal–organic frameworks (MOFs). The fact that we have so many materials opens …

Although the tailored metal active sites and porous architectures of MOFs hold great promise
for engineering challenges ranging from gas separations to catalysis, a lack of …

The heat capacity of a material is a fundamental property of great practical importance. For
example, in a carbon capture process, the heat required to regenerate a solid sorbent is …

Abstract Metal–organic frameworks (MOFs), have received great attention for catalytic
applications, which are regarded to combine the advantages of homogeneous and …