Your search keyword '"Panunzi, B."' showing total 3 results

1. Thermo-Induced Fluorochromism in Two AIE Zinc Complexes: A Deep Insight into the Structure-Property Relationship

Author

Rosita Diana, Ugo Caruso, Francesco Silvio Gentile, Luigi Di Costanzo, Pellegrino Musto, Barbara Panunzi, Diana, R., Caruso, U., Gentile, F. S., Di Costanzo, L., Musto, P., and Panunzi, B.

Subjects

Coordination Complexe, zinc complex, Organic Chemistry, Pharmaceutical Science, Electrons, Ligand, Ligands, Crystallography, X-Ray, Electron, Analytical Chemistry, Zinc, fluorochromism, AIEgens, structure-properties relationship, Coordination Complexes, Chemistry (miscellaneous), Drug Discovery, Molecular Medicine, AIEgen, Physical and Theoretical Chemistry

Abstract

Solid-state emitters exhibiting mechano-fluorochromic or thermo-fluorochromic responses represent the foundation of smart tools for novel technological applications. Among fluorochromic (FC) materials, solid-state emissive coordination complexes offer a variety of fluorescence responses related to the dynamic of noncovalent metal-ligand coordination bonds. Relevant FC behaviour can result from the targeted choice of metal cation and ligands. Herein, we report the synthesis and characterization of two different colour emitters consisting of zinc complexes obtained from N,O bidentate ligands with different electron-withdrawing substituents. The two complexes are blue and orange solid-state fluorophores, respectively, highly responsive to thermal and mechanical stress. These emitters show a very different photoluminescent (PL) pattern as recorded before and after the annealing treatment. Through X-ray structural analysis combined with thermal analysis, infrared (IR) spectroscopy, PL, and DFT simulation we provide a comprehensive analysis of the structural feature involved in the fluorochromic response. Notably, we were able to correlate the on-off thermo-fluorochromism of the complexes with the structural rearrangement at the zinc coordination core.

Published

2022

2. The Role of Zinc(II) Ion in Fluorescence Tuning of Tridentate Pincers: A Review

Author

Rosita Diana, Barbara Panunzi, Diana, R., and Panunzi, B.

Subjects

Solid-state, Pharmaceutical Science, chemistry.chemical_element, Review, Zinc, Ligands, Analytical Chemistry, Ion, lcsh:QD241-441, lcsh:Organic chemistry, Coordination Complexes, Drug Discovery, Atom, Physical and Theoretical Chemistry, Fluorescence response, Chemistry, Zinc ion, Organic Chemistry, Sulfur, Fluorescence, Crystallography, zinc ion, Chemistry (miscellaneous), Molecular Medicine, tridentate ligand, fluorescence

Abstract

Tridentate ligands are simple low-cost pincers, easy to synthetize, and able to guarantee stability to the derived complexes. On the other hand, due to its unique mix of structural and optical properties, zinc(II) ion is an excellent candidate to modulate the emission pattern as desired. The present work is an overview of selected articles about zinc(II) complexes showing a tuned fluorescence response with respect to their tridentate ligands. A classification of the tridentate pincers was carried out according to the binding donor atom groups, specifically nitrogen, oxygen, and sulfur donor atoms, and depending on the structure obtained upon coordination. Fluorescence properties of the ligands and the related complexes were compared and discussed both in solution and in the solid state, keeping an eye on possible applications.

Published

2020

3. Novel Solid-State Emissive Polymers and Polymeric Blends from a T-Shaped Benzodifuran Scaffold: A Comparative Study

Author

Barbara Panunzi, Angela Tuzi, Rosita Diana, Ugo Caruso, Caruso, U., Diana, R., Tuzi, A., and Panunzi, B.

Subjects

chemistry.chemical_classification, Fluorophore, Materials science, Polymers and Plastics, polymer, General Chemistry, Polymer, Article, Amorphous solid, lcsh:QD241-441, chemistry.chemical_compound, Monomer, chemistry, lcsh:Organic chemistry, Covalent bond, Intramolecular force, Polymer chemistry, photoluminescence quantum yield, benzodifuran, fluorescence, Luminescence, Macromolecule

Abstract

Two novel polyimines were synthesized from a benzodifuran based diamino monomer and two dialdehydes bearing bulky groups and a flexible spacer. The polymers display tuned luminescence performance according to the presence of half-salen groups. The effect of the intramolecular bond on the emission properties were examined. Two model compounds, replicating the same emissive Schiff base cores, were synthetized. From the models, dye-doped blends in the fluorophore/matrix ratio, resembling the polymers, were produced. Amorphous thin films of the covalent polymers and the polymeric blends were obtained by spin-coating technique. The Photoluminescent (PL) response of the different macromolecular systems were qualitatively and quantitatively examined and compared.

Published

2020