The development of artificial light‐harvesting systems mimicking the natural photosynthesis
method is an ever‐growing field of research. Numerous systems such as polymers, metal …

Artificial light-harvesting systems, an elegant way to capture, transfer and utilize solar
energy, have attracted great attention in recent years. As the primary step of natural …

Abstract Ultrathin ZnIn2S4 nanosheets (NSs) are grown on Co/N‐doped graphitic carbon
(NGC) nanocages, composed of Co nanoparticles surrounded by few‐layered NGC, to …

Noncovalent macrocycle‐confined supramolecular purely organic room‐temperature
phosphorescence (RTP) is a current research hotspot. Herein, a high‐efficiency noncovalent …

An artificial light‐harvesting system with sequential energy‐transfer process was fabricated
based on a supramolecular strategy. Self‐assembled from the host–guest complex formed …

The construction of efficient artificial light-harvesting systems (ALHSs) is of vital importance
in utilizing solar energy. Herein, we report the non-covalent syntheses of double helicates …

Aiming at the construction of novel platform for efficient light harvesting, the precise
synthesis of a new family of AIEgen‐branched rotaxane dendrimers was successful realized …

Photocatalytic synthesis of H2O2 is an advantageous and ecologically sustainable
alternative to the conventional anthraquinone process. However, achieving high conversion …

Designing supramolecular architectures with uncommon geometries embedded with
functional building units is of immense importance in contemporary research. In this report …

A series of covalent organic cages built from fluorophores capable of aggregation‐induced
emission (AIE) were elegantly prepared through the reduction of preorganized M2 (LA) 3 …