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Stability of Lactate Dehydrogenase in Metal‐Catalyzed Oxidation Solutions Containing Chelated Metals
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Photooxidation of dimethyl sulfide and dimethyl disulfide. I: Mechanism development
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A novel CeIII-cyclam type complex and its redox chemistry in aqueous solutions
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Pulse radiolysis of some aromatic sulphoxides in aqueous solutions
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How Curcumin Works Preferentially with Water Soluble Antioxidants
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Alkyl/Glycosyl Sulfoxides as Radical Precursors and Their Use in the Synthesis of Pyridine Derivatives**
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Development of a new EPR spin trap, DOD-8C (N-[4-dodecyloxy-2-(7′-carboxyhept-1′-yloxy)benzylidene]-N-tert-butylamine N-oxide), for the trapping of lipid radicals at a predetermined depth within biological membranes
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Degradation of sulfamethoxazole using ozone and chlorine dioxide - Compound-specific stable isotope analysis, transformation product analysis and mechanistic aspects
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Near-UV and Visible Light Degradation of Iron (III)-Containing Citrate Buffer: Formation of Carbon Dioxide Radical Anion via Fragmentation of a Sterically Hindered Alkoxyl Radical
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Radiation Induced One-Electron Oxidation of 2-Thiouracil in Aqueous Solutions
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Establishment of a Method for Investigating Direct and Indirect Actions of Ionizing Radiation Using Scavenger-free Plasmid DNA
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Photocatalytic Degradation of 4-Chlorophenol by •OH Radicals Generated by Thiophene Oligomers Incorporated in ZSM-5 Zeolite Channels
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The FeII(citrate) Fenton reaction under physiological conditions
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Journal of Inorganic Biochemistry, 2020, 206, 111018
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Mechanism of the Reaction of Radicals with Peroxides and Dimethyl Sulfoxide in Aqueous Solution
Ronit Herscu‐Kluska, Alexandra Masarwa, Magal Saphier, Haim Cohen and Dan Meyerstein
Chemistry A European J, 2008, 14, 5880
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Aufklärung von Peroxyl‐Radikalreaktionen in wäßriger Lösung mit strahlenchemischen Techniken
Clemens von Sonntag and Heinz‐Peter Schuchmann
Angewandte Chemie, 1991, 103, 1255
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Effect of Hydrogen Pretreatment of Platinum Nanoparticles on their Catalytic Properties: Reactions with Alkyl Radicals – A Mechanistic Study
Ronen Bar‐Ziv, Tomer Zidki, Israel Zilbermann, Guy Yardeni and Dan Meyerstein
ChemCatChem, 2016, 8, 2761
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BH4–‐Promoted, Radical‐Initiated, Catalytic Oxidation of (CH3)2SO by N2O in Aqueous Solution
Rinat Levy Yanus, Guy Yardeni, Eric Maimon, Magal Saphier, Israel Zilbermann and Dan Meyerstein
Eur J Inorg Chem, 2016, 2016, 1161
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Photohydroxylation of 1,4‐Benzoquinone in Aqueous Solution Revisited
Justus von Sonntag, Eino Mvula, Knut Hildenbrand and Clemens von Sonntag
Chemistry A European J, 2004, 10, 440
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Pulsed Electrical Discharges in Water: Can Non-volatile Compounds Diffuse into the Plasma Channel?
Joshua Franclemont and Selma Mededovic Thagard
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On the Lifetime of the Transients (NP)(CH3)n (NP=Ag0, Au0, TiO2 Nanoparticles) Formed in the Reactions Between Methyl Radicals and Nanoparticles Suspended in Aqueous Solutions
Ronen Bar‐Ziv, Israel Zilbermann, Olga Oster‐Golberg, Tomer Zidki, Guy Yardeni, Haim Cohen and Dan Meyerstein
Chemistry A European J, 2012, 18, 4699
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Investigations of metal-doped titanium dioxide photocatalysts
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Applied Catalysis B: Environmental, 2002, 37, 91
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On the chemical properties of the transient complexes LmMn+1–OOR
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Inorganica Chimica Acta, 2000, 299, 41
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Detection of Transient Intermediates in the Photochemical Reaction of Hydrogen Peroxide with Dimethyl sulfoxide by Time-Resolved EPR Techniques
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J. Phys. Chem. A, 2000, 104, 557
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Conductometric pulse radiolysis study of the interconversion Cr(III)/Cr(VI) redox reactions in acidic solution: Atmospheric pollution relevance
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Journal of Radiation Research and Applied Sciences, 2021, 14, 246
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Coating Pt0 Nanoparticles with Methyl Groups: The Reaction Between Methyl Radicals and Pt0NPs Suspended in Aqueous Solutions
Ronen Bar‐Ziv, Israel Zilbermann, Tomer Zidki, Guy Yardeni, Vladimir Shevchenko and Dan Meyerstein
Chemistry A European J, 2012, 18, 6733
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The •OH Radical Yield in the H2O2 + O3 (Peroxone) Reaction
Alexandra Fischbacher, Justus von Sonntag, Clemens von Sonntag and Torsten C. Schmidt
Environ. Sci. Technol., 2013, 47, 9959
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Conformational Influence on the Type of Stabilization of Sulfur Radical Cations in Cyclic Peptides
Gordon L. Hug, Krzysztof Bobrowski, Dariusz Pogocki, Gerald Hörner and Bronislaw Marciniak
ChemPhysChem, 2007, 8, 2202
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DMS oxidation in the Antarctic marine boundary layer: Comparison of model simulations and held observations of DMS, DMSO, DMSO2, H2SO4(g), MSA(g), and MSA(p)
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Reactions of methyl, hydroxyl and peroxyl radicals with the DOTA chelating agent used in medical imaging
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Free Radical Biology and Medicine, 2022, 180, 134
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Sulfinyl, α-Sulfinyl, Sulfonyl, and α-Sulfonyl Radicals
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Fine Particulate Matter-Induced Oxidative Stress Mediated by UVA-Visible Light Leads to Keratinocyte Damage
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Radical scavenging properties of a flavouring agent–Vanillin
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Study of the oxidative stress in a rat model of chronic brain hypoperfusion
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Carbonate-radical-anions, and not hydroxyl radicals, are the products of the Fenton reaction in neutral solutions containing bicarbonate
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Free Radical Biology and Medicine, 2019, 131, 1
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Visible‐Light Photocatalytic Oxidation of DMSO for RAFT Polymerization†
Matthew D. Thum, Donald Hong, Andrea N. Zeppuhar and Daniel E. Falvey
Photochem & Photobiology, 2021, 97, 1335
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A New Reaction Pathway for Bromite to Bromate in the Ozonation of Bromide
Alexandra Fischbacher, Katja Löppenberg, Clemens von Sonntag and Torsten C. Schmidt
Environ. Sci. Technol., 2015, 49, 11714
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Decarboxylative Oxygenation via Photoredox Catalysis
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Substantial Inverse Isotope Effects in the Hydrogen Atom Abstraction from [(L)ClRhIIIH/D]+ Macrocyclic Complexes by Methyl Radicals in Aqueous Solutions
Lioubov Kats, Eric Maimon and Dan Meyerstein
Chemistry A European J, 2010, 16, 460
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Methane formation from the reactions of hydroxyl radicals and hydrogen atoms with dimethyl sulfoxide (DMSO)
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Laser photoemission generation and electrochemical study of methyl radicals as secondary products of OH radicals capture by dimethyl sulfoxide molecules
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INFLUENCE OF WOOD EXTRACTS ON THE UV CURING OF ACRYLATE COATINGS
R. N. Kumar, Haider Osma Al-Mahdi, T. Scherzer and J. von Sonntag
Journal of Macromolecular Science, Part A, 2002, 39, 657
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Reaction of Methyl Radicals with Metal Powders Immersed in Aqueous Solutions
Irena Rusonik, Hurriyet Polat, Haim Cohen and Dan Meyerstein
Eur J Inorg Chem, 2003, 2003, 4227
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pH Dependence of Hydroxyl Radical, Ferryl, and/or Ferric Peroxo Species Generation in the Heterogeneous Fenton Process
Yufan Chen, Christopher J. Miller and T. David Waite
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Substitutions by nucleophilic free radicals: A new general reaction of heteroaromatic bases
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Reactions of alkyl radicals with metal powders immersed in aqueous solutions
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Pulse radiolysis with conductometric detection: Two approaches to absolute dosimetry
Heinz-Peter Schuchmann, David J. Deeble, Glyn O. Phillips and Clemens von Sonntag
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The reactions of the Cu(II)-nitrilotris(methylenephosphonic acid) complex with alkyl radicals in aqueous solutions
Guy Yardeni, Dan Meyerstein, Elena Mikhailovich-Jivin, Lioubov Kats, Haim Cohen, Israel Zilbermann and Eric Maimon
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Characterisation and quantitative determination of (hydro)peroxides formed in the radiolysis of dioxygen-containing systems and upon ozonolysis
Roman Flyunt, Achim Leitzke and Clemens von Sonntag
Radiation Physics and Chemistry, 2003, 67, 469
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On the hydrolysis of iodine in alkaline solution: A radiation chemical study
George V. Buxton and Quinto G. Mulazzani
Radiation Physics and Chemistry, 2007, 76, 932
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Mitochondria-Targeted Triphenylphosphonium-Based Compounds: Syntheses, Mechanisms of Action, and Therapeutic and Diagnostic Applications
Jacek Zielonka, Joy Joseph, Adam Sikora, Micael Hardy, Olivier Ouari, Jeannette Vasquez-Vivar, Gang Cheng, Marcos Lopez and Balaraman Kalyanaraman
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EPR studies of free-radical reactions of carboxyfullerenes
T. -S. Lin, L. L. Dugan and T. -Y. Luh
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Challenges Relating to the Quantification of Ferryl(IV) Ion and Hydroxyl Radical Generation Rates Using Methyl Phenyl Sulfoxide (PMSO), Phthalhydrazide, and Benzoic Acid as Probe Compounds in the Homogeneous Fenton Reaction
Yufan Chen, Christopher J. Miller, Jieli Xie and T. David Waite
Environ. Sci. Technol., 2023, 57, 18617
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