The combination of the copper (I)–iodide entity with organic ligands gives rise to a large
variety of CuII polynuclear structures in the form of molecular complexes or extended …

Luminescent manganese (II) complexes have been extensively studied owing to their
excellent photophysical properties. The facile synthesis and tunable optoelectronic …

Luminescence clusters composed of organic ligands and metals have gained significant
interests as scintillators owing to their great potential in high X-ray absorption, customizable …

The low efficiency triplet emission of hybrid copper (I) iodide clusters is a critical obstacle to
their further practical optoelectronic application. Herein, we present an efficient hybrid …

Light-up luminescence sensors have been employed in real-time in situ visual detection of
target molecules including volatile organic compounds (VOCs). However, currently …

Low-dimensional organic–metal halides are regarded as an emerging class of X-ray
scintillation materials, but most of the discovered compounds are confronted with challenges …

Designing and synthesizing cuprous halide phosphors unifying efficient low-energy
emission and a broad excitation band is still a great challenge. Herein, by rational …

This review addresses the reconstruction of structural plant components (cellulose, lignin,
and hemicelluloses) into materials displaying advanced optical properties. The strategies to …

Zero-dimensional (0D) organic metal halides have captured extensive attention for their
various structures and distinguished optical characteristics. However, achieving efficient …

Electroluminescent (EL) nanoclusters holding promise for new-generation cluster light-
emitting devices (CLEDs) rapidly emerge. However, slow radiation and serious quenching …