Kohn–Sham Density Functional Theory (KSDFT) is the most widely used electronic structure
method in chemistry, physics, and materials science, with thousands of calculations cited …

Quantum mechanics/molecular mechanics (QM/MM) hybrid models allow one to address
chemical phenomena in complex molecular environments. Whereas this modeling approach …

An automated and broadly applicable workflow for the description of solvation effects in an
explicit manner is introduced. This method, termed quantum cluster growth (QCG), is based …

Fueled by advances in hardware and algorithm design, large-scale automated explorations
of chemical reaction space have become possible. Here, we present our approach to an …

Abstract SERENITY [J Comput Chem. 2018; 39: 788–798] is an open‐source quantum
chemistry software that provides an extensive development platform focused on quantum …

Autonomous computations that rely on automated reaction network elucidation algorithms
may pave the way to make computational catalysis on a par with experimental research in …

The past years since the publication of our review on subsystem density‐functional theory
(sDFT)(WIREs Comput Mol Sci. 2014, 4: 325–362) have witnessed a rapid development and …

Autonomous reaction network exploration algorithms offer a systematic approach to explore
mechanisms of complex chemical processes. However, the resulting reaction networks are …

Simulations of carbon dioxide (CO2) in water may aid in understanding the impact of its
accumulation in aquatic environments and help advance technologies for carbon capture …

Data-driven synthesis planning has seen remarkable successes in recent years by virtue of
modern approaches of artificial intelligence that efficiently exploit vast databases with …