Synthesis and Photochemistry/photophysics studies of the intelligent luminescent molecular sensors for selective detection in Biochemistry and chemistry. (Q84194)
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Project Q84194 in Poland
Language | Label | Description | Also known as |
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English | Synthesis and Photochemistry/photophysics studies of the intelligent luminescent molecular sensors for selective detection in Biochemistry and chemistry. |
Project Q84194 in Poland |
Statements
800,000.0 zloty
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800,000.0 zloty
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100.0 percent
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1 October 2016
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30 September 2019
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POLITECHNIKA KRAKOWSKA IM. TADEUSZA KOŚCIUSZKI
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The main purpose of this project is the synthesis of new high performance luminescent molecular sensors as well as their quantitative spectrophotometric and spectrofluorometric studies. The developed novel systems will be examined for their suitability, efficiency and effectiveness in real time monitoring of a variety processes using spectrometric methods.The prepared systems will be characterized in terms of their lifetime and quantum yield of fluorescence, photostability, Stokes’ shift and the value of the dipole moment in the excited state. Probes with the highest values of features mentioned above will be particularly desirable, because of their strong dependence on the changes of pH, polarity, ionic strength, viscosity, formation of hydrogen bond and presence of quenchers. These compounds will be applied in biological and chemical studies as well as pharmaceutical and polymer industry, and environmental protection. (Polish)
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The main purpose of this project is the synthesis of new high performance luminescent molecular sensors as well as their quantitative Spectrophotometric and spectrofluorometric studies. The developed novel systems will be examined for their suitability, efficiency and effectiveness in real time monitoring of a variety processes using spectrometric methods.The prepared systems will be characterised in terms of their lifetime and quantum yield of fluorescence, photostability, Stokes’ shift and the value of the dipole moment in the excited state. Probes with the highest values of features mentioned above will be particularly Desirable, because of their strong dependence on the changes of pH, polarity, ionic strength, viscosity, formation of hydrogen bond and presence of quenchers. These compounds will be applied in biological and chemical studies as well as pharmaceutical and polymer industry, and environmental protection. (English)
14 October 2020
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Le but principal de ce projet est la synthèse de nouveaux capteurs moléculaires luminescents haute performance ainsi que leurs études quantitatives spectrophotométriques et spectrofluorométriques. Les nouveaux systèmes développés seront examinés en fonction de leur pertinence, de leur efficience et de leur efficacité dans la surveillance en temps réel d’une variété de processus à l’aide de méthodes spectrométriques.Les systèmes préparés seront caractérisés en termes de durée de vie et de rendement quantique de fluorescence, de photostabilité, de déplacement de Stokes et de valeur du moment dipolaire à l’état excité. Les sondes présentant les valeurs les plus élevées des caractéristiques mentionnées ci-dessus seront particulièrement souhaitables en raison de leur forte dépendance à l’égard des changements du pH, de la polarité, de la force ionique, de la viscosité, de la formation de la liaison hydrogène et de la présence d’extincteurs. Ces composés seront utilisés dans les études biologiques et chimiques ainsi que dans l’industrie des polymères et dans la protection de l’environnement. (French)
30 November 2021
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Hauptzweck dieses Projektes ist die Synthese neuer Hochleistungs-Leuchtstoffsensoren sowie deren quantitative spektrophotometrische und spektrofluorometrische Untersuchungen. Die entwickelten neuartigen Systeme werden auf ihre Eignung, Effizienz und Wirksamkeit bei der Echtzeitüberwachung einer Vielzahl von Prozessen mit spektrometrischen Methoden untersucht.Die vorbereiteten Systeme werden in Bezug auf Lebensdauer und Quantenausbeute von Fluoreszenz, Photostabilität, Stokes’ Verschiebung und dem Wert des Dipolmoments im aufgeregten Zustand charakterisiert. Sonden mit den höchsten Werten der oben genannten Merkmale sind aufgrund ihrer starken Abhängigkeit von pH-Werten, Polarität, Ionenstärke, Viskosität, Bildung von Wasserstoffbindung und Vorhandensein von Quenchern besonders wünschenswert. Diese Verbindungen werden in biologischen und chemischen Studien sowie in der Polymerindustrie und im Umweltschutz eingesetzt. (German)
7 December 2021
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Het hoofddoel van dit project is de synthese van nieuwe high performance luminescente moleculaire sensoren en hun kwantitatieve spectrofotometrische en spectrofluormetrische studies. De ontwikkelde nieuwe systemen zullen worden onderzocht op hun geschiktheid, efficiëntie en effectiviteit in real-time monitoring van verschillende processen met behulp van spectrometrische methoden.De voorbereide systemen zullen worden gekenmerkt in termen van hun levensduur en kwantumopbrengst van fluorescentie, fotostabiliteit, Stokes’ shift en de waarde van het dipoolmoment in de opgewonden toestand. Sondes met de hoogste waarden van bovengenoemde eigenschappen zullen bijzonder wenselijk zijn, vanwege hun sterke afhankelijkheid van de veranderingen van pH, polariteit, ionische sterkte, viscositeit, vorming van waterstofbinding en aanwezigheid van blusers. Deze verbindingen zullen zowel in biologische en chemische studies als in de polymeerindustrie en milieubescherming worden toegepast. (Dutch)
16 December 2021
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Lo scopo principale di questo progetto è la sintesi di nuovi sensori molecolari luminescenti ad alte prestazioni e dei loro studi spettrofotometrici e spettrofluorometrici quantitativi. I nuovi sistemi sviluppati saranno esaminati per la loro idoneità, efficienza ed efficacia nel monitoraggio in tempo reale di una varietà di processi utilizzando metodi spettrometrici. I sistemi preparati saranno caratterizzati in termini di durata e resa quantistica di fluorescenza, fotobilità, spostamento di Stokes e il valore del momento dipolo nello stato eccitato. Sonde con i più alti valori di caratteristiche di cui sopra sarà particolarmente auspicabile, a causa della loro forte dipendenza dai cambiamenti di pH, polarità, forza ionica, viscosità, formazione di legame idrogeno e presenza di chincher. Questi composti saranno applicati negli studi biologici e chimici, nonché nell'industria dei polimeri e nella protezione dell'ambiente. (Italian)
16 January 2022
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Identifiers
POIR.04.04.00-00-1E42/16
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