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The recent expansion of observational data has changed our understanding of the ocean iron cycle and its linkages with nutrients such as carbon and nitrogen.
The experimental state-of-the-art in the field of chiral quantum optics is reviewed and the ways in which chiral light–matter interaction could be exploited to add a new dimension of control to quantum networks and quantum many-body physics are discussed.
Quantum technology enables new methods for generating of randomness with minimal assumptions, certified by the violation of a Bell inequality, which opens up new theoretical and experimental research directions and leads to new challenges.
This Review discusses current knowledge of the structure, function and interactions of the metabotropic glutamate and GABAB receptors and the potential to target receptor subunits for future therapeutic intervention in neurological and mental health disorders.
A comprehensive review into mammalian interspecies chimaeras, documenting the advances that have occurred alongside developments in stem-cell biology and assessing the future of the field, including any possible ethical and legal issues.
Wild and managed pollinators are threatened by pressures such as environmental changes and pesticides, leading to risks for pollinator-dependent crop production, meaning more research and better policies are needed to safeguard pollinators and their services.
The interplay between spin–orbit coupling and two-dimensionality has led to the emergence of new phases of matter, such as spin-polarized surface states in topological insulators, interfacial chiral spin interactions, and magnetic skyrmions in thin films, with great potential for spin-based devices.
A review into the complex effects of Δ9-tetrahydrocannabinol on the dopamine system, examining data from animal and human studies and discussing the necessary future direction of research.