Themed collection Chemical Science Focus Articles

The different left-right and right-left penetrations of two van der Waals crusts, one narrow and one wide, are adequately represented by the single penetration parameter defined earlier.

Combined solid-state ^63/65Cu NMR spectroscopy and DFT calculations are powerful tools that can shed light on the local geometries and bonding of different Cu(I) sites in metal–organic frameworks (MOFs) (Zhang et al., Chem. Sci., 2024, https://doi.org/10.1039/D4SC00782D).

Molecular representation learning (MRL) holds significant potential for predicting diverse chemical properties. In this focus article, we will provide context for applications of MRL in chemistry and the significance of King-Smith's recently published work within this evolving field.

Electron clouds surrounding atoms interpenetrate in a molecule, due to weak van der Waals interactions or formation of a genuine chemical bond. Now, Alvarez and Echeverría have suggested a simple descriptor of how deep this interpenetration is, and called it a penetration index, i.

Cousin et al. (Chem. Sci., 2023, https://doi.org/10.1039/D3SC02063K) have demonstrated that dynamic nuclear polarization ¹³C solid-state nuclear magnetic resonance spectroscopy can be used to detect dilute polymorphic forms that are present within a mixture of solid forms.

Cameras keep an eye on your reaction and provide quantitative data to support analysis of reaction kinetics (https://doi.org/10.1039/d2sc05702f).

Big data-driven AI modeling has greatly revolutionized drug discovery. Chen et al. have paved a way for drug discovery from traditional Chinese medicine (TCM) sources by developing TCMBank, a centralized resource which standardizes TCM-related big data and integrates an AI drug discovery pipeline.

A highlight of the first synthesis of 1-azahomocubane and initial studies of this molecule (https://doi.org/10.1039/D3SC00001J), presenting opportunities for nitrogen scanning of strained hydrocarbon molecules.

Kavthe et al. (Chem. Sci., 2023, https://doi.org/10.1039/D3SC01699D) have demonstrated how employing more sustainable methodology can vastly reduce the environmental impact associated with the synthesis of the antimalarial drug candidate MMV688533.

Michaels et al. (Chem. Sci., 2023 https://doi.org/10.1039/D3SC00659J) show how employing a dye combination that matches the indoor light spectrum maximises the efficiency of dye cells to power autonomous Internet of Things systems.

We explore and comment on a key development using advanced mass spectrometric methods coupled with advanced algorithmic learning that can assist in analysing complex copolymers.

The field of aromaticity has grown extensively in recent decades, and new or unusual forms of aromaticity have been explored. But what exactly is aromaticity? It has always been a fuzzy and disputable concept, yet, is it now fuzzier than ever before?

This article highlights the recent work of M. Wagner and collaborators on the synthesis, bridgehead functionalization, and photoisomerization of boron-doped triptycene derivatives (https://doi.org/10.1039/D3SC00555K).

A machine learning workflow is used to predict reaction yields using data in a corporate electronic laboratory notebook.

A highlight of the recent report on the remarkable outcomes of the seemingly simple reaction of pyridines with chlorine gas.

Library-based screening methods such as mRNA display are paving the way for the discovery of cyclic peptides towards previously undruggable space.

Machine learning and simulation synergistically contribute to the discovery of novel cardiolipin-selective molecules.