Themed collection Spotlight Collection: Aggregation induced luminescence of metal complexes

Guest editors Andrea Fermi, Paola Ceroni and Inamur Rahaman Laskar introduce this Spotlight Collection: Aggregation induced luminescence of metal complexes.

Schematic illustration of the preparation of D-CN and MD-CN nanoparticles and the process of cell death after light irradiation.

AIE-featured PEG-condensed Cu(I)-p-MBA aggregates (PCuA), showing enhanced photodynamic antibacterial activities, were developed in water.

X-ray diffraction revealed tetrahedral geometry for manganese(II) halide complexes with napthylphosphonic diamide ligands. The photoluminescence spectra showed the superimposition of green Mn(II) emission with a band in the red range.

A tetraphenylethene-based Pd₂L₄ metallacage was self-assembled from four TPE-pyridine ligands with two Pd²⁺ ions. This metallacage exhibited a classical aggregation-induced emission property and stimuli-responsive behaviour.

Pt(II) complexes with different degrees of fluorination at a pyridine ligand have been investigated as photosensitizers using the structural modifications of a series of tridentate N⁁N⁁N ligands. The compounds were evaluated as potential chemotherapeutic agents against A549 cell lines.

AIE active cyclometalated complexes of iridium(III) exhibiting high quantum yield showed selective and sensitive detection of TNT and TNP explosives through rationally choosing the appropriate electronic substituents on the cyclometalated ligand.

A series of four-coordinated Pt^II(C^N)(N-donor ligand)Cl-type complexes have been synthesized through a combination of long-size C^N-type and N-donor ligands.

AIE-active cyclometalated iridium(III) polypyridyl complexes have been developed for rapid detection of bacterial lipopolysaccharide (LPS, also commonly known as endotoxin) and washing-free imaging of bacteria.

Phosphorescent isostructural Pd(II) and Pt(II) aggregates involving metallophilic interactions in nonpolar achiral/chiral solvents have been extensively studied.

The intramolecular π–π stacking interactions due to a minimalist ligand enhance the rigidity of the Re-BPTA complex,thus promoting remarkable solid-state luminescence properties.

A bis(imino)acenaphthene (BIAN) zinc(II) complex with tetraphenylethene (TPE) units as bulky aryl groups has been designed and developed, and its photophysical properties in solution and in the solid state have been investigated.

An aggregation-induced emission active bis-heteroleptic(III) complex of an aminoethanol substituted 1,10-phenanthroline-based ligand has been developed for highly selective luminescence ‘light-up’ sensing of pyrophosphate ions.

In this work, the aggregation-induced photoluminescence emission (AIPE) of three water-soluble heterobimetallic Ir–Pt complexes was reported with insight into their photophysical and electrochemical properties and imaging of bacterial cells.

A series of butterfly-like isomers named oxacalix[2]naphthalene[2]pyrazine (ONP) were conveniently synthesized by a one-step catalyst-free reaction in a facile manner, and they exhibit typical characteristics of aggregation-induced emission (AIE).

Luminescent nanoaggregates of Re(I) metallacycles were used as potential probes for the sensitive and selective detection of explosives and antibiotics that contain nitro groups.

New cationic mono- and AIE tetra-nuclear Ir(III) complex-porphyrin conjugates and the corresponding carrier-free NP PSs by self-assembly methods without any auxiliary reagents, [TPP-Ir]⁺ NPs and [TPP-4Ir]⁴⁺ NPs, are obtained for highly efficient PDT.

Four new AIE-active Ir(III) complexes were synthesized. MFIrqa, SFIriqa and SFIrqa based NPs are shown to be good PSs in vitro for PDT through Type I ˙OH generation mechanism.

A novel AIPE-active diphenylamino-substituted cationic Ir(III) complex is highly sensitive to the detection of 2,4,6-trinitrophenol and oxygen.

Schematic diagram of the diagnostic system of fluorescent photosensitizer MD3.

Two AIE-active Ir(III) cationic complexes containing Schiff base ligands were synthesised. Ir-2-N⁺ NPs are shown to be good PSs in vitro for PDT.

A newly designed Pt(II) complex showing a variety of emission colors depending on the degree of stacking is capable of sensing chloroform vapor.

A zinc(II) complex exhibits high-contrast and multicolor switching in response to mechanical, acid–base vapor and electrical stimulation under ambient light and 365 nm UV light.

The spacing of salen-type ligands by highly flexible permethylated bridges causes the derived coordination compounds to have unexpected material properties (e.g., liquid crystallinity, aggregation-induced emission or negative fluorescence anisotropy).

Herein the aggregation-induced emission (AIE) of a Tb(III) complex is reported for the first time.

A newly designed TPE ligand displayed a large fluorescence enhancement in the presence of silver ions in a dilute solution, leading to tunable fluorescence properties by simply mixing AIE and ACQ molecules.

A new organometallic alkynyl–gold(I) complex exhibiting aggregation induced emission is capable of sensing Guanosine nucleotides via complementary hydrogen bonding in aqueous media.

Boosted phosphorescence: minor structural changes drastically improve the photoluminescence properties of these new rhenium complexes vs. parent compound.

The novel Na[Ir(ppy)₂(SB-COO)] (Hppy = phenylpyridine; HSB-COOH = 4-carboxylanilinesalicylaldehyde Schiff base) in aqueous solution showed pH-responsive aggregation-induced enhanced phosphorescence (AIEP) by the formation of the protonated species [Ir(ppy)₂(SB-COOH)].

Binaphthyls-linked Pt(II) complexes with metal-induced chirality self-assemble to build 1D M or P helices and show aggregation/racemization-induced and circularly polarized luminescence.

Cyclometalated Ir(III) complex-based AIEgen has been developed to selectively detect and stain the cell rRNA which has been revealed by in vitro PL studies and cell imaging experiment.

A Co(II) complex based on an AIE-active tetraarylethylene ligand displays selective fluorescence enhancement in the presence of cyanide anion in aqueous solution.