Thermo-responsive light-emitting metal complexes and related materials

Abstract: Thermo-responsive light-emitting materials have wide potential applications in temperature sensing, bioimaging, optoelectronic devices and information security, due to their intriguing luminescent property changes in response to temperature. Among them, light-emitting...

“…However, for a quantitative analysis, the detection of luminescence changes allows for much higher sensitivity and lower signal interferences than color detection. These kinds of molecular probes and materials [201][202][203] are widely studied and suitable for different applications (e.g., temperature sensing, optoelectronic devices, and anticounterfeiting technologies [204] ); however the literature on thermochromic/thermoluminescent electrospun nanofibers is not too vast if compared to the research carried out on bulk materials having the same characteristics. [201,205] In this frame, the processing of the materials into electrospun nanofibers presents further significative advantages, such as very high surface area and porosity, which are extremely attractive characteristics when it comes to the preparation of high-performance sensors.…”

Thermoactive Smart Electrospun Nanofibers

“…However, for a quantitative analysis, the detection of luminescence changes allows for much higher sensitivity and lower signal interferences than color detection. These kinds of molecular probes and materials [201][202][203] are widely studied and suitable for different applications (e.g., temperature sensing, optoelectronic devices, and anticounterfeiting technologies [204] ); however the literature on thermochromic/thermoluminescent electrospun nanofibers is not too vast if compared to the research carried out on bulk materials having the same characteristics. [201,205] In this frame, the processing of the materials into electrospun nanofibers presents further significative advantages, such as very high surface area and porosity, which are extremely attractive characteristics when it comes to the preparation of high-performance sensors.…”

Thermoactive Smart Electrospun Nanofibers

“…This phenomenon can be attributed to a change in the molecular or crystal structure. 118,119 Both compounds 3a and 3b crystallize either as colourless, blue-emitting crystals or as yellow, green emitting crystals. Interestingly, the colourless crystals of 3a and 3b are isostructural (Fig.…”

Molecular gold strings: aurophilicity, luminescence and structure–property correlations

“…[1][2][3][4] In particular, high photoluminescence quantum yields (PLQYs) approaching 100% are possible for the Cu(I) complexes as no internal quenching processes of excited states via low-lying metal-centered d-d* states take place in contrast to other 3d element (Ru II , Pt II and Ir III ) compounds. [5][6][7] Previous reports have indicated that Cu(I)-based complexes with different types of coordinated ligands are able to achieve remarkable luminescence characteristics, including room temperature phosphorescence (RTP) and thermally activated delay fluorescence (TADF). [8][9][10][11][12] Such cuprous complexes show great potential for applications in optoelectronic devices and luminescencebased sensors.…”

Structural characterization and luminescence properties of trigonal Cu(i) iodine/bromine complexes comprising cation–π interactions