Materials can harbour quantum many-body systems, most typically in the form of strongly
correlated electrons in solids, that lead to novel and remarkable functions thanks to …

At the end of a rush lasting over half a century, in which CMOS technology has been
experiencing a constant and breathtaking increase of device speed and density, Moore's …

Southern Africa is consistently placed as a potential region for the evolution of Homo
sapiens. We present genome sequences, up to 13x coverage, from seven ancient …

Two-dimensional electrons confined to GaAs quantum wells are hallmark platforms for
probing electron–electron interactions. Many key observations have been made in these …

The development of new, high-quality functional materials has been at the forefront of
condensed-matter research. The recent advent of two-dimensional black phosphorus has …

Oxide electronic materials provide a plethora of possible applications and offer ample
opportunity for scientists to probe into some of the exciting and intriguing phenomena …

Non-Abelian anyons are a type of quasiparticle with the potential to encode quantum
information in topological qubits protected from decoherence. Experimental systems that are …

Quasiparticles with fractional charge and fractional statistics are key features of the fractional
quantum Hall effect. We discuss in detail the definitions of fractional charge and statistics …

Bernal bilayer graphene hosts even-denominator fractional quantum Hall states thought to
be described by a Pfaffian wave function with non-Abelian quasiparticle excitations. Here …

Simultaneous hydrogen generation and pollutants removal is considered as the potential
solution to the energy and environmental crisis, which can cut the consumption of expensive …