Themed collection Aggregation-Induced Emission

This review article covers the design and synthesis of macrocyclic compounds-based supramolecular systems and materials with aggregation-induced emission properties and broad application potentials.

Hierarchical changes in molecular motion during evaporative crystallization were studied based on excited-state dynamics of the AIE molecule, visualizing liquid-like clusters as nucleation precursors and providing insights into polymorph formation.

Positional isomers drive the formation of emissive cage- and channel-type hydrogen-bonded organic frameworks with distinct single-crystal transformation behaviors.

Regioselective functionalization of boron tropolonates, which consist of an even-electron/odd-atom π-system, results in selective control of molecular orbital energy.

A NIR-II dye-displacement assay integrating a quinine-specific aptamer with a J-aggregating cyanine dye enables sensitive, selective detection and fluorescence imaging of quinine under physiological conditions.

We report a novel trident-like multi-cation photosensitizer (PS) with stabilized membrane camouflage for efficient tumor-targeted photodynamic therapy. Its rational design boosts ROS generation and overcomes PS leakage in biomimetic delivery systems.

Cationic tetraphenylethylene-based amphiphiles were developed as AIE-active membrane antennas for balanced ultraviolet to blue light conversion to enhance algal photosynthesis.

Two orange-red planar chiral thermally activated delayed fluorescence emitters exhibit aggregation-induced emission. Their organic light-emitting diodes and circularly polarized devices show low efficiency roll-offs and high dissymmetry factors.

The triptycene-fused MR-TADF emitter exhibits an EQE_max of 27.0% and low efficiency roll-off, advancing high-performance MR-TADF materials.

A calix[4]arene-derived AIE macrocycle (named T1) acted as an energy donor in artificial light-harvesting systems (LHSs). The T1-based LHS enabled photocatalytic cross-dehydrogenative coupling reactions.

The precise regulation of ΔE_ST and k_RISCvia protonation/deprotonation enables dynamic switching between TADF and RTP afterglow.

Based on interpretable graph neural networks, we have established a new efficient workflow for developing AIE materials.

A gold(I) complex with a phosphino-type ligand can simultaneously show AIE and high-contrast tricolored mechanofluorochromism for the first time, and its application in inkless writing information storage is developed.