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7. Color Tuning in the Luminescence of Two Oligomers Derived from N,N′-(Naphthalenediyl)bis-phenylimine Containing Oligomers.

Author

Panunzi, B., Diana, R., and Caruso, U.

Subjects
LUMINESCENCE, MOLECULAR weights, SOLID solutions, OLIGOMERS, COLORS, PHOTOLUMINESCENCE
Abstract

Two oligomers with different molecular weight were produced. Fluorescence properties were examined both in solutions and in the solid state. In the solid state, molecular weight turned out to be an important factor influencing the aggregation structures and therefore the emission of the compounds, in colour and intensity. The neat compounds emit two different colours, blue and yellow, with increasing the molecular weight, whereas both compounds are blue emitters in solution and dispersed in host polymers. Dissolved in a LC host polymer and in a PVK matrix, they displayed noteworthy photoluminescence quantum yields. [ABSTRACT FROM AUTHOR]

Published
2020
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12. Metallorganic side group liquid crystalline polymers containing pi-allylpalladium(II) groups.

Author

Ghedini, M., Panunzi, B., and Roviello, A.

Subjects
*CRYSTALLINE polymers, *MONOMERS
Abstract

The preparation and phase properties of some LC pi-allyl and pi-crotyl Pd(II) side group metallorganic polymers and some related salicylaldiminates are described. The LC acrylate functionalized monomers are easily prepared, but their use to obtain the corresponding polymers by radical reaction failed because extensive decomposition of the complexes occurs with the formation of Pd metal. The synthesis of the metallated polymers was therefore performed by reacting the dimeric chloro-bridged organometallic pi-allyl or pi-crotyl Pd(II) complexes with the appropriate ligand polymer which is prepared without difficulties. The organometallic polymers show a nematic mesophase, while the ligand polymer exhibits a smectic A or C phase. Both metallated low molecular mass model compounds and the polymers give stable mesophases, although at lower temperatures compared with the parent ligand compounds. [ABSTRACT FROM AUTHOR]

Published
1998
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15. Augusto Sirigu (1939-2007).

Author

Caruso, U., Centore, R., Panunzi, B., Roviello, A., and Tuzi, A.

Subjects
SIRIGU, Augusto
Abstract

An obituary for chemistry professor Augusto Sirigu is presented.

Published
2007
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16. Benzodifuran-based fluorescent brighteners: A novel platform for plant cell wall imaging

Author

Rosita Diana, Ugo Caruso, Francesco Silvio Gentile, Luigi Di Costanzo, David Turrà, Stefania Vitale, Barbara Panunzi, Diana, R., Caruso, U., Gentile, F. S., Di Costanzo, L., Turra, D., Vitale, S., and Panunzi, B.

Subjects
Microscopy, Process Chemistry and Technology, General Chemical Engineering, Plant cell wall, Bioimaging, Fluorescent brightener agent
Abstract

Herein we designed three novel fluorescent brightening agents based on a benzodifuran skeleton. The compounds are colorless fluorophores emitting in the blue region with an improved water solubility and ability to interact with living cells. A complete understanding of the emission mechanisms was achieved by Density Functional Theory study based on X-ray crystallographic analysis. The fluorescence quantum yields were measured in different solvents and at different pH values. The ability of the different fluorophores to stain cell compartments of plant root samples was tested in water- and glycerol-based solutions. Through fluorescence microscopy technique two probes with a different functionalized branching chain proved to be efficient stains for plant root cell wall. The cationic probe has no harmful effect on plant tissues and is suitable for in vivo fluorescent visualization of plant root cell boundaries. This study sheds light on the potential use of brighteners containing a central benzodifuran core as tools for imaging of fixed and alive plant tissues.

Published
2022

17. Zinc (II) and AIEgens: The 'Clip Approach' for a Novel Fluorophore Family. A Review

Author

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

Subjects
Fluorophore, Luminescence, Computer science, Fluorescent Dye, Pharmaceutical Science, chemistry.chemical_element, Organic chemistry, Nanotechnology, 02 engineering and technology, Zinc, Living cell, Review, 010402 general chemistry, 01 natural sciences, Analytical Chemistry, AIE, chemistry.chemical_compound, QD241-441, Drug Discovery, Ionophore, Special section, Physical and Theoretical Chemistry, Ion, Organic Chemicals, Fluorescent Dyes, Ions, Ionophores, Scientific production, zinc complex, Optical Imaging, 021001 nanoscience & nanotechnology, 0104 chemical sciences, chemistry, Chemistry (miscellaneous), Molecular Medicine, Organic Chemical, fluorescence, 0210 nano-technology, Zinc cation
Abstract

Aggregation-induced emission (AIE) compounds display a photophysical phenomenon in which the aggregate state exhibits stronger emission than the isolated units. The common term of “AIEgens” was coined to describe compounds undergoing the AIE effect. Due to the recent interest in AIEgens, the search for novel hybrid organic–inorganic compounds with unique luminescence properties in the aggregate phase is a relevant goal. In this perspective, the abundant, inexpensive, and nontoxic d10 zinc cation offers unique opportunities for building AIE active fluorophores, sensing probes, and bioimaging tools. Considering the novelty of the topic, relevant examples collected in the last 5 years (2016–2021) through scientific production can be considered fully representative of the state-of-the-art. Starting from the simple phenomenological approach and considering different typological and chemical units and structures, we focused on zinc-based AIEgens offering synthetic novelty, research completeness, and relevant applications. A special section was devoted to Zn(II)-based AIEgens for living cell imaging as the novel technological frontier in biology and medicine.

Published
2021

18. A selective Nile Red based solvatochromic probe: A study of fluorescence in LUVs and GUVs model membranes

Author

Ylenia Miele, Anna Maria Nardiello, Lucia Sessa, Simona Concilio, Barbara Panunzi, Jlenia Brunetti, Stefano Piotto, Miriam Di Martino, Federico Rossi, Sessa, L., Concilio, S., Di Martino, M., Nardiello, A. M., Miele, Y., Rossi, F., Brunetti, J., Panunzi, B., and Piotto, S.

Subjects
Chemistry, Process Chemistry and Technology, General Chemical Engineering, Bilayer, Solvatochromism, Membrane physical state, Fluorescent radiation, Nile red, 02 engineering and technology, Chromophore, Nile Red, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Fluorescence, 0104 chemical sciences, chemistry.chemical_compound, Membrane, Solvatochromic probe, Biophysics, 0210 nano-technology, Lipid bilayer
Abstract

In this work, a membrane probe (NR18) with a Nile Red-based chromophore, a long tail of 18 carbon atoms and a zwitterionic head was synthesized. The probe is optimized to remain anchored to the phospholipid bilayer without internalizing. NR18 was fully characterized chemically and optically and showed marked solvatochromism. Incorporation into model membranes of LUVs and GUVs having different compositions, demonstrated that the probe could be used to discriminate the lipid order in membranes, based on the fluorescent radiation emitted. Spectrophotometric and fluorimetric measurements on LUVs showed that the emission wavelength increases with temperature, confirming the increase in fluidity and hydration in membranes at higher temperatures. DFT simulations helped us to clarify the impact of NR18 on the membrane thickness and the order parameter showing that NR18 does not cause substantial perturbation in the bilayer. Moreover, we demonstrated that the presence of an enaminic terminal group is mainly responsible for the ability of NR18 to have a different fluorescence in Ld and Lo membranes.

Published
2021

19. 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

20. A Novel DR/NIR T-Shaped AIEgen: Synthesis and X-Ray Crystal Structure Study

Author

Gelsomina Bakayoko, Barbara Panunzi, Ugo Caruso, Luigi Di Costanzo, Rosita Diana, Diana, R., Caruso, U., Di Costanzo, L., Bakayoko, G., and Panunzi, B.

Subjects
Photoluminescence, Materials science, General Chemical Engineering, DR/NIR, Quantum yield, 02 engineering and technology, Crystal structure, Conjugated system, 010402 general chemistry, 01 natural sciences, law.invention, Inorganic Chemistry, law, lcsh:QD901-999, Molecule, General Materials Science, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Fluorescence, Synchrotron, 0104 chemical sciences, Crystallography, Intramolecular force, T-shaped, lcsh:Crystallography, fluorescence, AIEgen, 0210 nano-technology
Abstract

We developed a new benzodifuran derivative as the condensation product between 2,6-diamino-4-(4-nitrophenyl)benzo[1,2-b:4,5-b&rsquo, ]difuran-3,7-dicarboxylate and 3-hydroxy-2-naphthaldehyde. The intramolecular hydrogen-bond interactions in the terminal half-salen moieties produce a sterically encumbered highly conjugated main plane and a D-A-D (donor-acceptor-donor) T-shaped structure. The novel AIEgen (aggregation-induced enhanced emission generator) fulfils the requirement of RIR (restriction of intramolecular rotation) molecules. DR/NIR (deep red/near infrared) emission was recorded in solution and in the solid state, with a noteworthy photoluminescence quantum yield recorded on the neat crystals which undergo some mechanochromism. The crystal structure study of the probe from data collected at a synchrotron X-ray source shows a main aromatic plane &pi, stacked in a columnar arrangement.

Published
2020
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21. Spectroscopic Behaviour of Two Novel Azobenzene Fluorescent Dyes and Their Polymeric Blends

Author

Rosita Diana, Ugo Caruso, Rafi Shikler, Stefano Piotto, Simona Concilio, Barbara Panunzi, Diana, R., Caruso, U., Piotto, S., Concilio, S., Shikler, R., and Panunzi, B.

Subjects
Models, Molecular, fluorophore, Fluorophore, Materials science, Optical Phenomena, Polymers, Pharmaceutical Science, Quantum yield, Photochemistry, Article, Analytical Chemistry, lcsh:QD241-441, Absorbance, chemistry.chemical_compound, lcsh:Organic chemistry, Drug Discovery, Thermal stability, Physical and Theoretical Chemistry, colorant, Polyvinyl Chloride, Density Functional Theory, Fluorescent Dyes, chemistry.chemical_classification, dye, Organic Chemistry, technology, industry, and agriculture, Polymer, Chromophore, Fluorescence, polymeric blend, Spectrometry, Fluorescence, azobenzene, Azobenzene, chemistry, Colorant, Dye, Polymeric blend, Chemistry (miscellaneous), Molecular Medicine, Polystyrenes, Azo Compounds
Abstract

Two novel symmetrical bis-azobenzene red dyes ending with electron-withdrawing or donor groups were synthesized. Both chromophores display good solubility, excellent chemical, and thermal stability. The two dyes are fluorescent in solution and in the solid-state. The spectroscopic properties of the neat crystalline solids were compared with those of doped blends of different amorphous matrixes. Blends of non-conductive and of emissive and conductive host polymers were formed to evaluate the potential of the azo dyes as pigments and as fluorophores. Both in absorbance and emission, the doped thin layers have CIE coordinates in the spectral region from yellow to red. The fluorescence quantum yield measured for the brightest emissive blend reaches 57%, a remarkable performance for a steadily fluorescent azo dye. A DFT approach was employed to examine the frontier orbitals of the two dyes.

Published
2020
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22. 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

23. A Highly Water-Soluble Fluorescent and Colorimetric pH Probe

Author

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

Subjects
010405 organic chemistry, General Chemical Engineering, Inorganic chemistry, benzothiazole, water soluble, 010402 general chemistry, Condensed Matter Physics, Condensation reaction, 01 natural sciences, Fluorescence, 0104 chemical sciences, Inorganic Chemistry, chemistry.chemical_compound, Benzothiazole, chemistry, Bromide, lcsh:QD901-999, Moiety, Molecule, General Materials Science, Titration, pH sensor, lcsh:Crystallography, fluorescence, Solubility
Abstract

A new 5-(4-((2-(benzothiazole-2-carbonyl)hydrazono)methyl)-3-hydroxyphenoxy)-N,N,N-trimethylpentan-1-aminium bromide (BTABr) fluorescent and colorimetric pH probe was easily synthesized by the condensation reaction of benzothiazole-2-carbohydrazide with 5-(4-formyl-3-hydroxyphenoxy)-N,N,N-trimethylpentan-1-aminium bromide. The benzothiazole moiety provided the emissive part of the molecule and the charged trimethyl amino group guaranteed outstanding solubility in water, for an organic molecule. pH titration experiments indicated that the probe is useful for monitoring acidic and alkaline solutions, turning reversibly in color/fluorescence just at a neutral pH value. Naked-eye colorimetric response was observed both in solution and in the solid state. In addition, the probe showed high stability and selectivity and large Stokes shifts. Because of these features, BTABr can potentially work as an on-off real-time pH sensor for intracellular pH imaging. The crystal structure of BTABr examined by single-crystal analysis showed a planar geometry of the molecule and confirmed the presence of a molecular stacking between molecules joined in a complex tridimensional hydrogen bonding pattern.

Published
2020
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24. RGB emission of three charged O,N,O-chelate zinc (II) complexes in pyridine solution

Author

Rosita Diana, Fabio Borbone, Angela Tuzi, Barbara Panunzi, Ugo Caruso, Bruna De Simone, Diana, R., Panunzi, B., De Simone, B., Borbone, F., Tuzi, A., and Caruso, U.

Subjects
Photoluminescence, Luminescence, Substituent, chemistry.chemical_element, 02 engineering and technology, Zinc, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Inorganic Chemistry, chemistry.chemical_compound, Crystallography, chemistry, Pyridine, Materials Chemistry, Polar effect, Side chain, Molecule, RGB emission, Physical and Theoretical Chemistry, Zinc complex, 0210 nano-technology, Single crystal
Abstract

Three zinc (II) complexes were synthesized from O,N,O-tridentate ligands with a charged side chain and a different electron withdrawing substituent. Metallated polymers with emission color tuning based on the same ligands moved interest. In the present study we collected information on the coordination environment and on the photoluminescence performance of the related model complexes. In pyridine solution RGB (red-greenblue) emission was achieved by lowering the withdrawing strength of the substituent. Two of the ligands were characterized by single crystal X-ray diffraction analysis that revealed the keto form and the shape adopted as uncoordinated molecules.

Published
2020

25. Study of the interaction of a novel semi-synthetic peptide with model lipid membranes

Author

Lucia Sessa, Simona Concilio, Barbara Panunzi, Petra S. Dittrich, Stefano Piotto, Ugo Caruso, Amalia Porta, Tom Robinson, Peter Walde, Sessa, L., Concilio, S., Walde, P., Robinson, T., Dittrich, P. S., Porta, A., Panunzi, B., Caruso, U., and Piotto, S.

Subjects
0301 basic medicine, Phospholipid, Filtration and Separation, Peptide, 02 engineering and technology, lcsh:Chemical technology, Article, 03 medical and health sciences, chemistry.chemical_compound, MD, GUV, LUV, azo-amino acid, Chemical Engineering (miscellaneous), lcsh:TP1-1185, lcsh:Chemical engineering, POPC, chemistry.chemical_classification, Process Chemistry and Technology, Bilayer, Vesicle, Azo-amino acid, technology, industry, and agriculture, lcsh:TP155-156, 021001 nanoscience & nanotechnology, peptide, Amino acid, Calcein, 030104 developmental biology, Membrane, chemistry, Biophysics, lipids (amino acids, peptides, and proteins), 0210 nano-technology
Abstract

Most linear peptides directly interact with membranes, but the mechanisms of interaction are far from being completely understood. Here, we present an investigation of the membrane interactions of a designed peptide containing a non-natural, synthetic amino acid. We selected a nonapeptide that is reported to interact with phospholipid membranes, ALYLAIRKR, abbreviated as ALY. We designed a modified peptide (azoALY) by substituting the tyrosine residue of ALY with an antimicrobial azobenzene-bearing amino acid. Both of the peptides were examined for their ability to interact with model membranes, assessing the penetration of phospholipid monolayers, and leakage across the bilayer of large unilamellar vesicles (LUVs) and giant unilamellar vesicles (GUVs). The latter was performed in a microfluidic device in order to study the kinetics of leakage of entrapped calcein from the vesicles at the single vesicle level. Both types of vesicles were prepared from a 9:1 (mol/mol) mixture of POPC (1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine) and POPG (1-palmitoyl-2-oleoyl-sn-glycero-3-phospho(1′-rac-glycerol). Calcein leakage from the vesicles was more pronounced at a low concentration in the case of azoALY than for ALY. Increased vesicle membrane disturbance in the presence of azoALY was also evident from an enzymatic assay with LUVs and entrapped horseradish peroxidase. Molecular dynamics simulations of ALY and azoALY in an anionic POPC/POPG model bilayer showed that ALY peptide only interacts with the lipid head groups. In contrast, azoALY penetrates the hydrophobic core of the bilayers causing a stronger membrane perturbation as compared to ALY, in qualitative agreement with the experimental results from the leakage assays., Membranes, 10 (10)

Published
2020

26. A Flavone-Based Solvatochromic Probe with A Low Expected Perturbation Impact on the Membrane Physical State

Author

Lucia Sessa, Anna Maria Nardiello, Simona Concilio, Barbara Panunzi, Stefano Piotto, Ylenia Miele, Federico Rossi, Miriam Di Martino, Concilio, S., Di Martino, M., Nardiello, A. M., Panunzi, B., Sessa, L., Miele, Y., Rossi, F., and Piotto, S.

Subjects
Materials science, Chemical Phenomena, flavone, Lipid Bilayers, Fluorescent Dye, Molecular Conformation, Pharmaceutical Science, Chemistry Techniques, Synthetic, Molecular Dynamics Simulation, 010402 general chemistry, 01 natural sciences, Article, Fluorescence spectroscopy, Analytical Chemistry, Cell membrane, lcsh:QD241-441, 03 medical and health sciences, Molecular dynamics, lcsh:Organic chemistry, Drug Discovery, medicine, Physical and Theoretical Chemistry, Lipid bilayer, membrane, Fluorescent Dyes, 030304 developmental biology, 0303 health sciences, solvatochromic probe, Molecular Structure, Cell Membrane, Organic Chemistry, Solvatochromism, Rational design, Flavone, Membrane, Solvatochromic probe, Flavones, Fluorescence, 0104 chemical sciences, Spectrometry, Fluorescence, medicine.anatomical_structure, Microscopy, Fluorescence, Chemistry (miscellaneous), Chemical physics, Drug Design, Lipid Bilayer, Molecular Medicine
Abstract

The study of the cell membrane is an ambitious and arduous objective since its physical state is regulated by a series of processes that guarantee its regular functionality. Among the different methods of analysis, fluorescence spectroscopy is a technique of election, non-invasive, and easy to use. Besides, molecular dynamics analysis (MD) on model membranes provides useful information on the possibility of using a new probe, following its positioning in the membrane, and evaluating the possible perturbation of the double layer. In this work, we report the rational design and the synthesis of a new fluorescent solvatochromic probe and its characterization in model membranes. The probe consists of a fluorescent aromatic nucleus of a 3-hydroxyflavone moiety, provided with a saturated chain of 18 carbon atoms and a zwitterionic head so to facilitate the anchoring to the polar heads of the lipid bilayer and avoid the complete internalization. It was possible to study the behavior of the probe in GUV model membranes by MD analysis and fluorescence microscopy, demonstrating that the new probe can efficiently be incorporated in the lipid bilayer, and give a color response, thanks to is solvatochromic properties. Moreover, MD simulation of the probe in the membrane supports the hypothesis of a reduced perturbation of the membrane physical state.

Published
2020

27. Color Tuning in the Luminescence of Two Oligomers Derived from N,N′-(Naphthalenediyl)bis-phenylimine Containing Oligomers

Author

R. Diana, B. Panunzi, U. Caruso, Panunzi, B., Diana, R., and Caruso, U.

Subjects
chemistry.chemical_classification, Photoluminescence, Article Subject, Solid-state, QC350-467, 02 engineering and technology, Polymer, Optics. Light, 010402 general chemistry, 021001 nanoscience & nanotechnology, Photochemistry, 01 natural sciences, Fluorescence, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Electronic, Optical and Magnetic Materials, Matrix (chemical analysis), chemistry, 0210 nano-technology, Luminescence
Abstract

Two oligomers with different molecular weight were produced. Fluorescence properties were examined both in solutions and in the solid state. In the solid state, molecular weight turned out to be an important factor influencing the aggregation structures and therefore the emission of the compounds, in colour and intensity. The neat compounds emit two different colours, blue and yellow, with increasing the molecular weight, whereas both compounds are blue emitters in solution and dispersed in host polymers. Dissolved in a LC host polymer and in a PVK matrix, they displayed noteworthy photoluminescence quantum yields.

Published
2020

28. The effect of bulky substituents on two π-conjugated mesogenic fluorophores. Their organic polymers and zinc-bridged luminescent networks

Author

Rosita Diana, Simona Concilio, Barbara Panunzi, Tonino Caruso, Ugo Caruso, Francesco Marrafino, Rafi Shikler, Diana, R., Panunzi, B., Concilio, S., Marrafino, F., Shikler, R., Caruso, T., and Caruso, U.

Subjects
chemistry.chemical_classification, Photoluminescence, Materials science, Polymers and Plastics, Quantum yield, General Chemistry, Polymer, Conjugated system, Luminescent polymer, Polymer network, Salen dyes, Photochemistry, Article, lcsh:QD241-441, chemistry.chemical_compound, chemistry, Azobenzene, lcsh:Organic chemistry, Liquid crystal, Density functional theory, Luminescence
Abstract

From a dicyano-phenylenevinylene (PV) and an azobenzene (AB) skeleton, two new symmetrical salen dyes were obtained. Terminal bulky substituents able to reduce intermolecular interactions and flexible tails to guarantee solubility were added to the fluorogenic cores. Photochemical performances were investigated on the small molecules in solution, as neat crystals and as dopants in polymeric matrixes. High fluorescence quantum yield in the orange-red region was observed for the brightest emissive films (88% yield). The spectra of absorption and fluorescence were predicted by Density Functional Theory (DFT) calculations. The predicted energy levels of the frontier orbitals are in good agreement with voltammetry and molecular spectroscopy measures. Employing the two dyes as dopants of a nematic polymer led to remarkable orange or yellow luminescence, which dramatically decreases in on-off switch mode after liquid crystal (LC) order was lost. The fluorogenic cores were also embedded in organic polymers and self-assembly zinc coordination networks to transfer the emission properties to a macro-system. The final polymers emit from red to yellow both in solution and in the solid state and their photoluminescence (PL) performance are, in some cases, enhanced when compared to the fluorogenic cores.

Published
2019

29. Fluorescence pH-dependent sensing of Zn(II)by a tripodal ligand. A comparative X-ray and DFT study

Author

Lucia Sessa, Simona Concilio, Barbara Panunzi, Ugo Caruso, Angela Tuzi, Stefano Piotto, Rosita Diana, Panunzi, B., Diana, R., Concilio, S., Sessa, L., Tuzi, A., Piotto, S., and Caruso, U.

Subjects
Coordination sphere, Biophysics, chemistry.chemical_element, 02 engineering and technology, Zinc, 010402 general chemistry, 01 natural sciences, Biochemistry, chemistry.chemical_compound, Fluorescence sensor, Tripodal, Molecule, Aqueous solution, Ligand, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Crystallography, chemistry, Benzothiazole, Tripodal ligand, Naked eye, 0210 nano-technology
Abstract

A new complex was obtained starting from a pyridyl/phenolic/benzothiazole functionalized ligand (BPAP) with zinc acetate. The structural and photoluminescence properties of the complex were investigated by X-ray diffraction and confirmed by DFT calculations. By comparing the results with previous studies, we found that the mode of binding of the sensor was influenced by the pH of the medium, changing the zinc coordination sphere. In a basic aqueous solution, the metal coordinates two neutral nitrogen atoms and two negative sites, the phenate oxygen and the deprotonate amide nitrogen and a water molecule. In this condition, the ligand was found to behave as a more sensitive naked eye fluorescence chemosensor towards Zn2+, showing blue photoluminescence with a lower detection limit of 375 nM.

Published
2019

30. A new donor-acceptor crosslinkable l-shape chromophore for NLO applications

Author

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

Subjects
chemistry.chemical_classification, Chloroform, 010405 organic chemistry, Chemistry, Organic Chemistry, Crystal structure, Polymer, Chromophore, 010402 general chemistry, L-shape, 01 natural sciences, 0104 chemical sciences, Analytical Chemistry, Amorphous solid, Inorganic Chemistry, Bond length, chemistry.chemical_compound, Crosslinkable, Molecule, Physical chemistry, Thin film, NLO chromophore, Spectroscopy
Abstract

A new nonlinear-optical (NLO) chromophore containing L-Shape 2-benzofuranyldiazene in π-electron bridge has been synthetized and its chemical and thermal properties examined. Evaluation of the second order NLO properties was performed by EFISH measurements of μβ on chloroform solution and by SHG measurements on amorphous spin-coated thin films obtained from a blend of polymer and chromophores crosslinked “in situ”. The value of 830∙10−48 esu for μβ measured on the dye and of 10 pm/V for the d33 for the poled network are in medium range for similar systems, confirming the proper employ of the molecule to build NLO active networks. The crystal structures dye and its precursor examined by single-crystal analysis show a planar geometry and bond lengths pattern confirm the push pull L-shape nature of the D-π-A systems.

Published
2019

31. A comparative study on low-temperature sol-gel ga-doped zinc oxide inverted PSCs

Author

U. Caruso, R. Diana, P. Morvillo, B. Panunzi, E. Bobeico, Diana, R., Panunzi, B., Morvillo, P., Bobeico, E., and Caruso, U.

Subjects
Sol-gel, Materials science, Doping, Gallium doped zinc oxide (ZnO:Ga), chemistry.chemical_element, Polymer solar cells, Zinc, Polymer solar cell, chemistry, Chemical engineering, Electrochemistry
Abstract

A low-temperature sol-gel Ga-doped ZnO (ZnO:Ga) thin film as the electron transport layer (ETL) for high efficiency inverted polymer solar cells (PSCs) has been realised. The ZnO:Ga precursor was prepared by dissolving zinc acetate and ethanolamine in the 2-methoxyethanol with Ga(NO3)3 at different concentration. Doped ZnO thin films were deposed on indium tin oxide (ITO)/glass substrates by spin-coating technique and the films annealed at 150°C for 5 minutes in air. To check performances of ZnO:Ga thin film were realized inverted polymer solar cells with the configuration ITO/ZnO:Ga/photoactive layer/MoO3/Ag. The photoactive layer was a blend of poly[(4,8-bis-(2-ethylhexyloxy)-benzo(1,2-b:4,5-b′)dithiophene)-2,6-diyl-alt-(4-(2-octanoyl)-3-fluorothieno[3,4-b]thiophene-)-2-6-diyl)] (PBDTTT-CF) and [6,6]-phenyl C71 butyric acid methyl ester ([70]PCBM) (1:1.5 w/w). In this work was investigated the effect of gallium concentration on the photovoltaic behavior of PSCs. The best efficiency of 7.7% was reached by using a 6 at% ZnO:Ga film as ETL.

Published
2019

32. Synthesis and thermotropic behavior of cholesteric mixtures containing metallomesogen Cu(II), Ni(II), Pd(II) and vanadyl complexes

Author

Fabio Borbone, Antonio Roviello, Laura Ricciotti, Giuseppina Roviello, Michelina Catauro, Barbara Panunzi, Antonio Carella, Borbone, F, Carella, A, Roviello, G, Ricciotti, L, Panunzi, B, Catauro, M, Roviello, A, Catauro, Michelina, Roviello, A., Borbone, Fabio, Carella, Antonio, Giuseppina, Roviello, Laura, Ricciotti, Panunzi, Barbara, Michelina, Catauro, and Roviello, Antonio

Subjects
Materials science, Chiral ligand, chemistry.chemical_element, Reflective film, Metallomesogen, Thermotropic crystal, Inorganic Chemistry, Metal, Nickel, Crystallography, Differential scanning calorimetry, chemistry, visual_art, Variable pitch, Materials Chemistry, visual_art.visual_art_medium, Organic chemistry, Cholesteric LC, Physical and Theoretical Chemistry, Vanadyl, Spectroscopy, Cholesteric LC, Nickel, Reflective film, Vanadyl, Variable pitch, Coordination geometry
Abstract

In this work the synthesis of a series of Ni(II), vanadyl and Pd(II) metallomesogen complexes with a chiral ligand is reported. Cholesteric mixtures were obtained by mixing such complexes with analogous achiral complexes and their thermotropic behavior was studied by means of differential scanning calorimetry, temperature dependent UV-Visible spectroscopy and optical observation. The results show a strong dependence of the cholesteric pitch on the temperature for Ni/Ni mixtures, minor and no dependence respectively for VO/VO and Pd/Pd mixtures, this last in accordance with the known behavior of Cu/Cu mixtures. The study reveals an influence of the metal and its coordination geometry on the temperature dependence of the cholesteric pitch. In this work the synthesis of a series of Ni(II), vanadyl and Pd(II) metallomesogen complexes with a chiral ligand is reported. Cholesteric mixtures were obtained by mixing such complexes with analogous achiral complexes and their thermotropic behavior was studied by means of differential scanning calorimetty, temperature dependent UV-Visible spectroscopy and optical observation. The results show a strong dependence of the cholesteric pitch on the temperature for Ni/Ni mixtures, minor and no dependence respectively for VO/VO and Pd/Pd mixtures, this last in accordance with the known behavior of Cu/Cu mixtures. The study reveals an influence of the metal and its coordination geometry on the temperature dependence of the cholesteric pitch. (C) 2013 Elsevier B.V. All rights reserved.

Published
2013

33. Cationic Azobenzenes as Light-Responsive Crosslinkers for Alginate-Based Supramolecular Hydrogels.

Author

Di Martino M, Sessa L, Panunzi B, Diana R, Piotto S, and Concilio S

Abstract

Azobenzene photoswitches are fundamental components in contemporary approaches aimed at light-driven control of intelligent materials. Significant endeavors are directed towards enhancing the light-triggered reactivity of azobenzenes for such applications and obtaining water-soluble molecules able to act as crosslinkers in a hydrogel. Here, we report the rational design and the synthesis of azobenzene/alginate photoresponsive hydrogels endowed with fast reversible sol-gel transition. We started with the synthesis of three cationic azobenzenes (AZOs A, B, and C) and then incorporated them in sodium alginate (SA) to obtain photoresponsive supramolecular hydrogels (SMHGs). The photoresponsive properties of the azobenzenes were investigated by UV-Vis and 1 H NMR spectroscopy. Upon irradiation with 365 nm UV light, the azobenzenes demonstrated efficient trans -to- cis isomerization, with complete isomerization occurring within seconds. The return to the trans form took several hours, with AZO C exhibiting the fastest return, possibly due to higher trans isomer stability. In the photoresponsive SMHGs, the minimum gelation concentration (MGC) of azobenzenes was determined for different compositions, indicating that small amounts of azobenzenes could induce gel formation, particularly in 5 wt% SA. Upon exposure to 365 nm UV light, the SMHGs exhibited reversible gel-sol transitions, underscoring their photoresponsive nature. This research offers valuable insights into the synthesis and photoresponsive properties of cationic, water-soluble azobenzenes, as well as their potential application in the development of photoresponsive hydrogels.

Published
2024
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34. AIEgen orthopalladated hybrid polymers for efficient inactivation of the total coliforms in urban wastewater.

Author

Sessa L, Diana R, Gentile FS, Mazzaglia F, and Panunzi B

Subjects
Humans, Pandemics, Wastewater, Gram-Negative Bacteria, Polymers, COVID-19
Abstract

Monitorable AIE polymers with a bioactive pattern are employed in advanced biomedical applications such as functional coatings, theranostic probes, and implants. After the global COVID-19 pandemic, interest in developing surfaces with superior antimicrobial, antiproliferative, and antiviral activities dramatically increased. Many formulations for biocide surfaces are based on hybrid organic/inorganic materials. Palladium (II) complexes display relevant activity against common bacteria, even higher when compared to their uncoordinated ligands. This article reports the design and synthesis of two series of orthopalladated polymers obtained by grafting a cyclopalladated fragment on two different O, N chelating Schiff base polymers. Different grafting percentages were examined and compared for each organic polymer. The fluorescence emission in the solid state was explored on organic matrixes and grafted polymers. DFT analysis provided a rationale for the role of the coordination core. The antibacterial response of the two series of hybrid polymers was tested against the total coliform group of untreated urban wastewater, revealing excellent inactivation ability., (© 2023. Springer Nature Limited.)

Published
2023
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35. A DR/NIR Hybrid Polymeric Tool for Functional Bio-Coatings: Theoretical Study, Cytotoxicity, and Antimicrobial Activity.

Author

Diana R, Gentile FS, Concilio S, Petrella A, Belvedere R, Schibeci M, Arciello A, Di Costanzo L, and Panunzi B

Abstract

Among modern biomaterials, hybrid tools containing an organic component and a metal cation are recognized as added value, and, for many advanced biomedical applications, synthetic polymers are used as thin protective/functional coatings for medical or prosthetic devices and implants. These materials require specific non-degradability, biocompatibility, antimicrobial, and antiproliferative properties to address safety aspects concerning their use in medicine. Moreover, bioimaging monitoring of the biomedical device and/or implant through biological tissues is a desirable ability. This article reports a novel hybrid metallopolymer obtained by grafting zinc-coordinated fragments to an organic polymeric matrix. This hybrid polymer, owing to its relevant emission in the deep red to near-infrared (DR/NIR) region, is monitorable; therefore, it represents a potential material for biomedical coating. Furthermore, it shows good biocompatibility and adhesion properties and excellent stability in slightly acidic/basic water solutions. Finally, in contact with the superficial layers of human skin, it shows antimicrobial properties against Staphylococcus aureus bacterial strains.

Published
2023
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36. Insights into Two Novel Orthopalladated Chromophores with Antimicrobial Activity against Escherichia coli .

Author

Diana R, Gentile FS, Carella A, Di Costanzo L, and Panunzi B

Subjects
Anti-Bacterial Agents pharmacology, Azo Compounds, Bacteria, Coloring Agents, Escherichia coli, Ligands, Microbial Sensitivity Tests, Palladium pharmacology, Coordination Complexes, Schiff Bases pharmacology
Abstract

Advanced chromophoric tools, besides being biologically active, need to meet the expectations of the technological demands including stability, colour retention, and proper solubility for their target. Many coordination compounds of conjugated ligands are antibacterial dyes, able to combine a strong dyeing performance with a useful biological activity. Specifically, palladium (II) complexes of Schiff base ligands are known for their relevant activity against common bacteria. In this article, we report the synthesis and comprehensive experimental and theoretical characterization of two novel Pd(II) chromophore complexes obtained from a cyclopalladated Schiff base as two different chelating azo dyes. The antibacterial response of these two novel complexes was tested against the ubiquitous Escherichia coli bacterium in an aqueous medium and revealed a noteworthy antimicrobial activity, higher than when compared with their uncoordinated biologically active ligands.

Published
2022
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37. Azobenzene as Antimicrobial Molecules.

Author

Di Martino M, Sessa L, Di Matteo M, Panunzi B, Piotto S, and Concilio S

Subjects
Anti-Bacterial Agents pharmacology, Anti-Infective Agents pharmacology, Azo Compounds chemistry, Azo Compounds pharmacology
Abstract

Azo molecules, characterized by the presence of a -N=N- double bond, are widely used in various fields due to their sensitivity to external stimuli, ch as light. The emergence of bacterial resistance has pushed research towards designing new antimicrobial molecules that are more efficient than those currently in use. Many authors have attempted to exploit the antimicrobial activity of azobenzene and to utilize their photoisomerization for selective control of the bioactivities of antimicrobial molecules, which is necessary for antibacterial therapy. This review will provide a systematic and consequential approach to coupling azobenzene moiety with active antimicrobial molecules and drugs, including small and large organic molecules, such as peptides. A selection of significant cutting-edge articles collected in recent years has been discussed, based on the structural pattern and antimicrobial performance, focusing especially on the photoactivity of azobenzene and the design of smart materials as the most targeted and desirable application., Competing Interests: The authors declare no conflict of interest.

Published
2022
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38. Thermo-Induced Fluorochromism in Two AIE Zinc Complexes: A Deep Insight into the Structure-Property Relationship.

Author

Diana R, Caruso U, Gentile FS, Di Costanzo L, Musto P, and Panunzi B

Subjects
Crystallography, X-Ray, Electrons, Ligands, Coordination Complexes chemistry, Zinc 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
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39. A Water Soluble 2-Phenyl-5-(pyridin-3-yl)-1,3,4-oxadiazole Based Probe: Antimicrobial Activity and Colorimetric/Fluorescence pH Response.

Author

Diana R, Caruso U, Di Costanzo L, Concilio S, Piotto S, Sessa L, and Panunzi B

Subjects
Fluorescent Dyes chemistry, Hydrogen-Ion Concentration, Oxadiazoles, Water chemistry, Anti-Infective Agents pharmacology, Colorimetry methods
Abstract

The growing demand of responsive tools for biological and biomedical applications pushes towards new low-cost probes easy to synthesize and versatile. Current optical probes are theranostic tools simultaneously responsive to biological parameters/analyte and therapeutically operating. Among the optical methods for pH monitoring, simple small organic molecules including multifunctional probes for simultaneous biological activity being highly desired by scientists and technicians. Here, we present a novel pH-responsive probe with a three-ring heteroaromatic pattern and a flexible cationic chain. The novel molecule shows real-time naked-eye colorimetric and fluorescence response in the slightly acidic pH range besides its excellent solubility both in the organic phase and in water. In addition, the small probe shows significant antibacterial activity, particularly against Escherichia coli . Single-crystal X-ray study and density functional theory (DFT) calculations rationalize the molecule spectroscopic response. Finally, molecular dynamics (MD) elucidate the interactions between the probe and a model cell membrane.

Published
2022
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40. A Novel L-Shaped Fluorescent Probe for AIE Sensing of Zinc (II) Ion by a DR/NIR Response.

Author

Diana R, Caruso U, Gentile FS, Di Costanzo L, and Panunzi B

Abstract

In the field of optical sensors, small molecules responsive to metal cations are of current interest. Probes displaying aggregation-induced emission (AIE) can solve the problems due to the aggregation-caused quenching (ACQ) molecules, scarcely emissive as aggregates in aqueous media and in tissues. The addition of a metal cation to an AIE ligand dissolved in solution can cause a "turn-on" of the fluorescence emission. Half-cruciform-shaped molecules can be a winning strategy to build specific AIE probes. Herein, we report the synthesis and characterization of a novel L-shaped fluorophore containing a benzofuran core condensed with 3-hydroxy-2-naphthaldehyde crossed with a nitrobenzene moiety. The novel AIE probe produces a fast colorimetric and fluorescence response toward zinc (II) in both in neutral and basic conditions. Acting as a tridentate ligand, it produces a complex with enhanced and red-shifted emission in the DR/NIR spectral range. The AIE nature of both compounds was examined on the basis of X-ray crystallography and DFT analysis.

Published
2021
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41. Stimuli-Responsive Zinc (II) Coordination Polymers: A Novel Platform for Supramolecular Chromic Smart Tools.

Author

Diana R, Caruso U, and Panunzi B

Abstract

The unique role of the zinc (II) cation prompted us to cut a cross-section of the large and complex topic of the stimuli-responsive coordination polymers (CPs). Due to its flexible coordination environment and geometries, easiness of coordination-decoordination equilibria, "optically innocent" ability to "clip" the ligands in emissive architectures, non-toxicity and sustainability, the zinc (II) cation is a good candidate for building supramolecular smart tools. The review summarizes the recent achievements of zinc-based CPs as stimuli-responsive materials able to provide a chromic response. An overview of the past five years has been organised, encompassing 1, 2 and 3D responsive zinc-based CPs; specifically zinc-based metallorganic frameworks and zinc-based nanosized polymeric probes. The most relevant examples were collected following a consequential and progressive approach, referring to the structure-responsiveness relationship, the sensing mechanisms, the analytes and/or parameters detected. Finally, applications of highly bioengineered Zn-CPs for advanced imaging technique have been discussed.

Published
2021
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42. Zinc (II) and AIEgens: The "Clip Approach" for a Novel Fluorophore Family. A Review.

Author

Diana R and Panunzi B

Subjects
Fluorescence, Ionophores, Ions, Luminescence, Organic Chemicals, Fluorescent Dyes chemistry, Optical Imaging methods, Zinc chemistry
Abstract

Aggregation-induced emission (AIE) compounds display a photophysical phenomenon in which the aggregate state exhibits stronger emission than the isolated units. The common term of "AIEgens" was coined to describe compounds undergoing the AIE effect. Due to the recent interest in AIEgens, the search for novel hybrid organic-inorganic compounds with unique luminescence properties in the aggregate phase is a relevant goal. In this perspective, the abundant, inexpensive, and nontoxic d 10 zinc cation offers unique opportunities for building AIE active fluorophores, sensing probes, and bioimaging tools. Considering the novelty of the topic, relevant examples collected in the last 5 years (2016-2021) through scientific production can be considered fully representative of the state-of-the-art. Starting from the simple phenomenological approach and considering different typological and chemical units and structures, we focused on zinc-based AIEgens offering synthetic novelty, research completeness, and relevant applications. A special section was devoted to Zn(II)-based AIEgens for living cell imaging as the novel technological frontier in biology and medicine.

Published
2021
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43. Visual pH Sensors: From a Chemical Perspective to New Bioengineered Materials.

Author

Di Costanzo L and Panunzi B

Subjects
Bioengineering, Colorimetry, Fluorescence, Humans, Hydrogen-Ion Concentration, Nanostructures, Biosensing Techniques methods, Metal-Organic Frameworks chemistry
Abstract

Many human activities and cellular functions depend upon precise pH values, and pH monitoring is considered a fundamental task. Colorimetric and fluorescence sensors for pH measurements are chemical and biochemical tools able to sense protons and produce a visible signal. These pH sensors are gaining widespread attention as non-destructive tools, visible to the human eye, that are capable of a real-time and in-situ response. Optical "visual" sensors are expanding researchers' interests in many chemical contexts and are routinely used for biological, environmental, and medical applications. In this review we provide an overview of trending colorimetric, fluorescent, or dual-mode responsive visual pH sensors. These sensors include molecular synthetic organic sensors, metal organic frameworks (MOF), engineered sensing nanomaterials, and bioengineered sensors. We review different typological chemical entities of visual pH sensors, three-dimensional structures, and signaling mechanisms for pH sensing and applications; developed in the past five years. The progression of this review from simple organic molecules to biological macromolecules seeks to benefit beginners and scientists embarking on a project of pH sensing development, who needs background information and a quick update on advances in the field. Lessons learned from these tools will aid pH determination projects and provide new ways of thinking for cell bioimaging or other cutting-edge in vivo applications.

Published
2021
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44. The Role of Zinc(II) Ion in Fluorescence Tuning of Tridentate Pincers: A Review.

Author

Diana R and Panunzi B

Subjects
Ligands, Coordination Complexes chemistry, Fluorescence, Zinc chemistry
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
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45. Study of the Interaction of a Novel Semi-Synthetic Peptide with Model Lipid Membranes.

Author

Sessa L, Concilio S, Walde P, Robinson T, Dittrich PS, Porta A, Panunzi B, Caruso U, and Piotto S

Abstract

Most linear peptides directly interact with membranes, but the mechanisms of interaction are far from being completely understood. Here, we present an investigation of the membrane interactions of a designed peptide containing a non-natural, synthetic amino acid. We selected a nonapeptide that is reported to interact with phospholipid membranes, ALYLAIRKR, abbreviated as ALY. We designed a modified peptide (azoALY) by substituting the tyrosine residue of ALY with an antimicrobial azobenzene-bearing amino acid. Both of the peptides were examined for their ability to interact with model membranes, assessing the penetration of phospholipid monolayers, and leakage across the bilayer of large unilamellar vesicles (LUVs) and giant unilamellar vesicles (GUVs). The latter was performed in a microfluidic device in order to study the kinetics of leakage of entrapped calcein from the vesicles at the single vesicle level. Both types of vesicles were prepared from a 9:1 (mol/mol) mixture of POPC (1-palmitoyl-2-oleoyl- sn -glycero-3-phosphocholine) and POPG (1-palmitoyl-2-oleoyl- sn -glycero-3-phospho(1'- rac -glycerol). Calcein leakage from the vesicles was more pronounced at a low concentration in the case of azoALY than for ALY. Increased vesicle membrane disturbance in the presence of azoALY was also evident from an enzymatic assay with LUVs and entrapped horseradish peroxidase. Molecular dynamics simulations of ALY and azoALY in an anionic POPC/POPG model bilayer showed that ALY peptide only interacts with the lipid head groups. In contrast, azoALY penetrates the hydrophobic core of the bilayers causing a stronger membrane perturbation as compared to ALY, in qualitative agreement with the experimental results from the leakage assays.

Published
2020
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46. A Flavone-Based Solvatochromic Probe with A Low Expected Perturbation Impact on the Membrane Physical State.

Author

Concilio S, Di Martino M, Nardiello AM, Panunzi B, Sessa L, Miele Y, Rossi F, and Piotto S

Subjects
Chemistry Techniques, Synthetic, Drug Design, Fluorescent Dyes chemical synthesis, Lipid Bilayers chemistry, Microscopy, Fluorescence, Molecular Conformation, Molecular Dynamics Simulation, Molecular Structure, Spectrometry, Fluorescence, Cell Membrane chemistry, Chemical Phenomena, Flavones chemistry, Fluorescent Dyes chemistry
Abstract

The study of the cell membrane is an ambitious and arduous objective since its physical state is regulated by a series of processes that guarantee its regular functionality. Among the different methods of analysis, fluorescence spectroscopy is a technique of election, non-invasive, and easy to use. Besides, molecular dynamics analysis (MD) on model membranes provides useful information on the possibility of using a new probe, following its positioning in the membrane, and evaluating the possible perturbation of the double layer. In this work, we report the rational design and the synthesis of a new fluorescent solvatochromic probe and its characterization in model membranes. The probe consists of a fluorescent aromatic nucleus of a 3-hydroxyflavone moiety, provided with a saturated chain of 18 carbon atoms and a zwitterionic head so to facilitate the anchoring to the polar heads of the lipid bilayer and avoid the complete internalization. It was possible to study the behavior of the probe in GUV model membranes by MD analysis and fluorescence microscopy, demonstrating that the new probe can efficiently be incorporated in the lipid bilayer, and give a color response, thanks to is solvatochromic properties. Moreover, MD simulation of the probe in the membrane supports the hypothesis of a reduced perturbation of the membrane physical state.

Published
2020
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47. Novel Solid-State Emissive Polymers and Polymeric Blends from a T-Shaped Benzodifuran Scaffold: A Comparative Study.

Author

Caruso U, Diana R, Tuzi A, and Panunzi B

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
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48. Spectroscopic Behaviour of Two Novel Azobenzene Fluorescent Dyes and Their Polymeric Blends.

Author

Diana R, Caruso U, Piotto S, Concilio S, Shikler R, and Panunzi B

Subjects
Density Functional Theory, Fluorescent Dyes chemical synthesis, Models, Molecular, Optical Phenomena, Polystyrenes chemistry, Polyvinyl Chloride chemistry, Spectrometry, Fluorescence, Azo Compounds chemistry, Fluorescent Dyes chemistry, Polymers chemistry
Abstract

Two novel symmetrical bis-azobenzene red dyes ending with electron-withdrawing or donor groups were synthesized. Both chromophores display good solubility, excellent chemical, and thermal stability. The two dyes are fluorescent in solution and in the solid-state. The spectroscopic properties of the neat crystalline solids were compared with those of doped blends of different amorphous matrixes. Blends of non-conductive and of emissive and conductive host polymers were formed to evaluate the potential of the azo dyes as pigments and as fluorophores. Both in absorbance and emission, the doped thin layers have CIE coordinates in the spectral region from yellow to red. The fluorescence quantum yield measured for the brightest emissive blend reaches 57%, a remarkable performance for a steadily fluorescent azo dye. A DFT approach was employed to examine the frontier orbitals of the two dyes., Competing Interests: There are no conflicts to declare.

Published
2020
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49. Novel Dicyano-Phenylenevinylene Fluorophores for Low-Doped Layers: A Highly Emissive Material for Red OLEDs.

Author

Diana R, Panunzi B, Marrafino F, Piotto S, and Caruso U

Abstract

Two efficient deep red (DR)-emitting organic dicyano-phenylenevinylene derivatives with terminal withdrawing or donor groups were synthesized. The spectroscopic properties of the neat solids and the low-doped layers in polystyrene or polyvinylcarbazole host matrixes were analyzed, and the luminescence performance was explained using density functional theory (DFT) analysis. A noteworthy 89% fluorescence quantum yield was observed for the brightest red-emissive polyvinylcarbazole (PVK) blend. This result pushed us to successfully produce an emissive red organic light-emitting device (OLED) as a preliminary feasibility test.

Published
2019
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50. An Amphiphilic Pyridinoyl-hydrazone Probe for Colorimetric and Fluorescence pH Sensing.

Author

Diana R, Panunzi B, Tuzi A, Piotto S, Concilio S, and Caruso U

Subjects
Hydrogen-Ion Concentration, Molecular Structure, Spectrometry, Fluorescence, Fluorescent Dyes chemical synthesis, Fluorescent Dyes chemistry, Hydrazones chemical synthesis, Hydrazones chemistry, Molecular Dynamics Simulation
Abstract

A new pH sensor based on a substituted aroylhydrazide with a flexible side chain and a terminal trimethyl ammonium group (PHA + ) was designed and synthesized. The terminal quaternary ammonium guarantees excellent solubility in water. At the same time, the probe is very soluble in hydrophobic envirornments. The pyridinoyl-hydrazone moiety acts as the pH-sensitive fluorophore/chromophore probe. Extensive physicochemical characterization has been performed on the bromide salt PHABr. DFT calculations, based on single-crystal X-ray data, permitted to rationalize the optical behavior. Molecular dynamics simulations permitted to clarify the mode of interaction with lipid membrane. The ability of the probe to change color and fluorescence in response to different pH and media of different polarity has been investigated. PHABr shows a remarkable pH-dependent behavior in both absorption and fluorescence spectra with high sensitivity and strong on-off switch effect at neutral pH, perceptible even to the naked eye.

Published
2019
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