Photoinduced proton transfer in differently structured water: an EPR approach to solving a classic problem

The mechanism of proton transfer (PT), and how it is affected by water structure, is a fundamental issue in numerous chemical and biological processes. Formulated more than 200 years ago, a possible model for PT in aqueous media was proposed by Grotthuss, which continues to be actively studied and debated. In this study, we exploit electron paramagnetic resonance to investigate PT in aqueous solutions. Our proposed method employs pH-sensitive stable nitroxyl radicals and makes use of photolysis of 2-nitrobenzaldehyde to generate protons in the sub-nanosecond timescale. This approach was used to study the impact of classical chaotropic compounds on PT as studied in various aqueous solutions, i.e. 8 M urea, 6 M guanidine hydrochloride (Gdn·HCl), and potassium chloride (KCl). Our findings confirm significant impacts on PT rates. For instance, in 6 M Gdn·HCl, PT occurred 40-fold slower than in water. The method's sensitivity to water structure is demonstrated, highlighting its potential for monitoring the kinetics of PT in ice and in proteins.

Photoinduced proton transfer in differently structured water: an EPR approach to solving a classic problem

Barbon, Antonio^Methodology;Savitsky, Anton;Grigoriev, Igor A.;Reznikov, Vladimir A.;Kirilyuk, Igor A.;Lushchekina, Sofya;Moroz, Ilia B.;Eliash, Tamar;Friedman, Noga;Sheves, Mordehai;Carmieli, Raanan;

2026

Abstract

The mechanism of proton transfer (PT), and how it is affected by water structure, is a fundamental issue in numerous chemical and biological processes. Formulated more than 200 years ago, a possible model for PT in aqueous media was proposed by Grotthuss, which continues to be actively studied and debated. In this study, we exploit electron paramagnetic resonance to investigate PT in aqueous solutions. Our proposed method employs pH-sensitive stable nitroxyl radicals and makes use of photolysis of 2-nitrobenzaldehyde to generate protons in the sub-nanosecond timescale. This approach was used to study the impact of classical chaotropic compounds on PT as studied in various aqueous solutions, i.e. 8 M urea, 6 M guanidine hydrochloride (Gdn·HCl), and potassium chloride (KCl). Our findings confirm significant impacts on PT rates. For instance, in 6 M Gdn·HCl, PT occurred 40-fold slower than in water. The method's sensitivity to water structure is demonstrated, highlighting its potential for monitoring the kinetics of PT in ice and in proteins.

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	Anno
	
				2026
			
	Lingua/e pubblicazione
	
				Inglese
Inglese
			
	Rivista su cui è pubblicata l'opera
	
				SCIENTIFIC REPORTS
			
	Codice Pubmed
	
				41663485
			
	Codice DOI
	
				https://dx.doi.org/10.1038/s41598-026-38650-0
			
	Codice OpenAlex
	
				W7128394543
			
	Categoria ISI-CRUI
	
				Spectroscopy/Instrumentation/Analytical Sciences includes all resources concerned with spectroscopy, instrumentation and analytical sciences. The spectroscopy resources covered here are concerned with a technique involving the production, measurement and interpretation of electromagnetic spectra arising from either emission or absorption of radiant energy by various sources. The instrumentation resources deal with the application of instruments for observation, measurement or control of physical and/or chemical systems. The analytical chemistry resources deal with techniques that yield any type of information about chemical systems and include chromatography, chemometrics, thermal analysis, electroanalysis, pyrolysis, and separation science.
The Physical Chemistry/Chemical Physics category includes resources on photochemistry, solid state chemistry, kinetics, catalysis, quantum chemistry, surface chemistry, electro-chemistry, chemical thermodynamics, thermo-physics, colloids, fullerenes and zeolites. Resources dealing with (liquid) crystals and crystallography are also included in this category. This category also includes resources on atomic, molecular and chemical physics, which concerns the structure of atoms and molecules, atomic and molecular interactions with radiation, magnetic resonance and relaxation, Mossbauer effect, and atomic and molecular collision processes and interactions.
			
	Nazionalità Autore/i
	
				ITALIA
GERMANIA
ISRAELE
RUSSIA
			
	Presenza di coautori con affiliazione estera
	
				sì
			
	Fulltext
	
				open
			
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						Barbon, Antonio; Savitsky, Anton; Grigoriev, Igor A.; Reznikov, Vladimir A.; Kirilyuk, Igor A.; Lushchekina, Sofya; Moroz, Ilia B.; Eliash, Tamar; Fri...espandi
						
	Tipologia
	
				01 CONTRIBUTO IN RIVISTA::01.01 - Articolo in rivista
			
	Tipologia
	
				info:eu-repo/semantics/article
			
	Numero autori
	
				12
			
	Tipologia sito docente
	
				262
			
	Dataset correlato
	
	sub-section
	
	URL
	
									https://www.nature.com/articles/s41598-026-38650-0
								
	DOI
	
									https://dx.doi.org/10.1038/s41598-026-38650-0
								
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				01.01 - Articolo in rivista

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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11577/3581558

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