Thank you for visiting nature.com. You are using a browser version with limited support for CSS. To obtain
the best experience, we recommend you use a more up to date browser (or turn off compatibility mode in
Internet Explorer). In the meantime, to ensure continued support, we are displaying the site without styles
and JavaScript.
Methane hydrate clogs pipelines, is difficult to extract profitably, and exists in quantities sufficient to screw up Earth’s climate. Brett Thornton and Christian Stranne consider this confounding cage compound.
Amilra Prasanna (AP) de Silva talks to Nature Chemistry about his path in chemistry, from photochemistry to sodium sensors to logic gates, through connections between people and between two places that share more than it may seem, Sri Lanka and Northern Ireland.
Introduced in response to growing numbers of scientists and conferences, posters gave an outlet to those not invited to give oral presentations. But why are poster sessions still the purview of students?
Sit back and settle in for a tour of the chemical analysis instruments aboard the James Webb Space Telescope and the techniques being used to explore the planets beyond our Solar System.
Governments worldwide are committing more funding for scientific research in the face of the ongoing pandemic and climate crises. However, the funding process must be restructured to remove the barriers arising from conscious and unconscious biases experienced by minoritized groups, including women, and particularly women of colour.
Decisions, decisions. There’s a lot to think about when moving on from a postdoctoral position and Shira Joudan takes us through the considerations that led to her ultimately taking a tenure-track position in a new city.
Madison Knapp and Jennifer Bridwell-Rabb explore the functions of chlorophyll and explain how our understanding of this green pigment has changed over time.
Lukas Veth and Paweł Dydio discuss the importance of ligands in transition metal catalysis, looking at the success story of xantphos and why it should earn the title of ‘privileged ligand’.
Tova N. Williams explores the history of madder, its components and the perhaps confusing terminology that surrounds this long-known source of red colour.
Choline 2-hexenoate is an ionic compound that is a liquid at room temperature, and is just one of a class of compounds that have huge potential in biomedical research and clinical applications, explains Eden E. L. Tanner.
The tris(2,2′-bipyridine)ruthenium(II) cation, or ‘rubipy’ to its friends, has had a significant influence on our understanding of the photophysics of transition metal complexes, and has also helped revolutionize organic photochemistry, explains Daniela M. Arias-Rotondo.
In early 2020, Shira Joudan was in the final stages of her PhD when the COVID-19 pandemic hit. Despite the challenging circumstances, she graduated, found a postdoc position and will begin her independent academic career in early 2023.
In 1931, Erich Hückel published a landmark paper — the seed of the now famous 4n + 2 rule for aromaticity in annulenes that bears his name. Electron counting has since been extended to other classes of compounds, resulting in a multitude of rules aiming to capture the concept of aromaticity and its impact in chemistry.
In 2017 Professor Frances S. Ligler was inducted into the National Inventors Hall of Fame for her inventions in portable optical biosensors. Professor Ligler now talks to Nature Chemistry about the challenge of developing new sensor designs into reliable products, and some of the pitfalls to avoid in the development process.
