Coumarin Compounds: Versatile Fluorescent Chromophores for Advanced Research Coumarin compounds are highly versatile fluorescent and laser dyes with exceptional performance characteristics. As fluorescent chromophores, they have remained a focal point in the research and development of fluorescent probes. These compounds are widely used for synthesizing coumarin derivatives and optical probes...

Hexasubstituted benzene derivatives are a class of compounds with exceptional structural attributes, offering six derivatization sites. These compounds exhibit structural rigidity, high symmetry, abundant modification possibilities, and diverse topological configurations. Their unique properties make them invaluable in constructing functional supramolecular assemblies and dendrimers. Consequently, these derivatives are widely utilized in...

Superfan compounds are a novel class of molecular cages with unique structural features. Composed of two parallel benzene rings connected by six side chains, these compounds form a lantern-like structure with a (quasi-) closed internal cavity and numerous recognition sites distributed around the cavity. Compared to traditional supramolecular host compounds,...

Hexasubstituted benzene derivatives represent a class of compounds with unique structural attributes. Characterized by six derivatization sites, these molecules exhibit: Structural Rigidity and High Symmetry: Their robust and symmetrical architecture provides stability and versatility. Rich Topological Structures: The potential for diverse modifications opens up numerous possibilities for advanced material design....

Photodynamic therapy (PDT) combines photosensitive drugs with laser activation to treat cancer effectively. Metal-based photosensitizers like tin, lutetium, palladium, and ruthenium compounds have already entered clinical trials or received approval for PDT applications. However, conventional PDT mechanisms heavily depend on oxygen, limiting their effectiveness in hypoxic cancer environments. Developing innovative...

Metal-Organic Frameworks (MOFs): Revolutionizing Material Science Metal-organic frameworks (MOFs) are a rapidly developing class of coordination polymers. With their remarkable characteristics—structural diversity, porosity, tailorability, and high specific surface area—MOFs have become invaluable across various scientific and industrial fields. Applications include gas adsorption and storage, molecular separation, catalysis, drug sustained release,...