2D hybrid perovskites with strong spin–orbit coupling (SOC) and structural asymmetry
represent a new class of quantum materials that can potentially display coexisting …

The development of halide perovskite semiconductors led to various technological
breakthroughs in optoelectronics, in particular in the areas of photovoltaics and light-emitting …

Halide perovskites are semiconductors that exhibit sharp optical absorption edges and small
Urbach energies allowing for efficient collection of sunlight in thin-film photovoltaic devices …

Summary Two-dimensional (2D) heterostructures constructed of van der Waals-stacked 2D
inorganic materials have emerged as a new class of material with emergent properties that …

Metal halide perovskites have emerged as promising materials for optoelectronic
applications in the last decade. A large amount of effort has been made to investigate the …

Layered hybrid perovskites exhibit emergent physical properties and exceptional functional
performances, but the coexistence of lattice order and structural disorder severely hinders …

Optical orientation of carrier spins by circularly polarized light is the basic concept and tool of
spin physics in semiconductors. We study the optical orientation of electrons and holes in a …

The strong spin-orbit interaction in the organic-inorganic perovskites tied to the incorporation
of heavy elements (eg, Pb and I) makes these materials interesting for applications in …

As the properties of a semiconductor material depend on the fate of the excitons,
manipulating exciton behavior is the primary objective of nanomaterials. Although …

Revealing the bonding and time-evolving atomic dynamics in functional materials with
complex lattice structures can update the fundamental knowledge on rich physics therein …