Assembly and Applications of Macrocyclic-Confinement-Derived Supramolecular Organic Luminescent Emissions from Cucurbiturils

Abstract: Cucurbit[n]urils (Q[n]s or CB[n]s), as a classical of artificial organic macrocyclic hosts, were found to have excellent advantages in the fabricating of tunable and smart organic luminescent materials in aqueous media and the solid state with high emitting efficiency under the rigid pumpkin-shaped structure-derived macrocyclic-confinement effect in recent years. This review aims to give a systematically up-to-date overview of the Q[n]based supramolecular organic luminescent emissions from the confined spaces … Show more

“…Aggregation-induced emission luminogens (AIEgens) have achieved great success in detecting microbes and bioanalytes due to their merits of low background and high sensitivity [22][23][24][25][26][27]. AIEgens with multi-rotor structures are normally non-fluorescent due to the fast dissipation of the excited state energy by the free intramolecular motions of their rotors, but become strongly emissive when the rotor motions are restricted by the surroundings [22,28].…”

Visualization of Antimicrobial-Induced Bacterial Membrane Disruption with a Bicolor AIEgen

“…Aggregation-induced emission luminogens (AIEgens) have achieved great success in detecting microbes and bioanalytes due to their merits of low background and high sensitivity [22][23][24][25][26][27]. AIEgens with multi-rotor structures are normally non-fluorescent due to the fast dissipation of the excited state energy by the free intramolecular motions of their rotors, but become strongly emissive when the rotor motions are restricted by the surroundings [22,28].…”

Visualization of Antimicrobial-Induced Bacterial Membrane Disruption with a Bicolor AIEgen

“…39 As a consequence, a hypothesis about the blue shift herein was put forward: due to the lipophilicity of the β-CD cavity, 36 the mobility of the electron cloud of probe 1 grows worse after the complexation of probe 1 and β-CD, which inhibited the ICT of probe 1 . 40…”

Distinguishing cancer cells from normal cells with an organelle-targeted fluorescent marker

“…[21][22][23][24] Among the most frequently encountered macrocycles, cucurbiturils (CBs), a family of macrocyclic receptors possessing hydrophobic cavities and carbonyl-laced portals, have been explored as versatile building blocks to fabricate supramolecular nanoconstructs with elaborate structures and functions. [25][26][27] In this context, cucurbit [8]uril (CB [8]), an eightmembered CB homologue, has been drawn into the limelight because it can enable two specic guest molecules to stack in close proximity within the rigid cavity and oen leads to dramatic photoluminescence enhancement in both inanimate milieus and biological uids. [28][29][30][31][32] Lanthanide complexes have been widely utilized in the design of luminescent materials and imaging agents due to their excellent photophysical properties, such as large Stokes shis, narrow emission bands, and long-lived excited states.…”

A tunable full-color lanthanide noncovalent polymer based on cucurbituril-mediated supramolecular dimerization