Pulse radiolytic investigation of the reduction of cadmium(II) ions

Kelm, M.; Lilie, J.; Henglein, A.

doi:10.1039/f19757101132

Cited by 44 publications

(27 citation statements)

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“…This formation can be partly suppressed by large amounts of OH radical scavengers [27,28], The decay curve of Cd EDTA^" consists of at least two components. We attribute the fast component to reaction (6) Cd EDTA^" + H2O2 ^ Cd EDTA'" + OH + OH", (6) similar to the reaction (7) reported by MEYERSTEIN and MULAC [3] …”

Section: Resultssupporting

confidence: 65%

Pulse Radiolysis Study of Cd EDTA² ̄and Pb EDTA² ̄ in Alkaline Solution in the Presence of Alcohols

Buitenhuis¹,

Bakker²,

Stock³

et al. 1980

Radiochimica Acta

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Section: Resultssupporting

confidence: 65%

Pulse Radiolysis Study of Cd EDTA² ̄and Pb EDTA² ̄ in Alkaline Solution in the Presence of Alcohols

Buitenhuis¹,

Bakker²,

Stock³

et al. 1980

Radiochimica Acta

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“…The reduction rates between Cd 2+ and e aq − , and between Cd + and Cd + are seen to be shorter than the laser pulse width. The rate constant of the reaction between Cd + and Cd + is 3.0 × 10 9 M − 1 s − 11 [6]. Subsequently, these intermediates react among each other and the Cd particle is formed via the reaction of Cd 2 2+ .…”

Section: Resultsmentioning

confidence: 98%

“…The formed e aq − reacts efficiently with the neighbouring Cd 2+ and finally the Cd + will be produced. The rate constant of the reaction of 3.5 × 10 10 M − 1 s − 1 has been determined using a pulse radiolysis [6]. Fig.…”

Section: Resultsmentioning

confidence: 99%

Formation of Cd particles by UV laser irradiation

2008

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“…The redox potentials for the atomic lead systems are induced in the figure, too. Experimentally, it has been shown that a complex is formed which finally decays to yield Cd2+ [3]. In all these calculations, the free energy of hydration of the metal atoms was assumed to be negligable.…”

Section: Coy-radiolysismentioning

confidence: 99%

“…Redox Potential ConsiderationsSome of the results obtained in Section 111.1 as well as the earlier work on Nit and Cd+[2,3] may now be discussed in terms of the standard redox potentials of the systems involved. Redox Potential ConsiderationsSome of the results obtained in Section 111.1 as well as the earlier work on Nit and Cd+[2,3] may now be discussed in terms of the standard redox potentials of the systems involved.…”

mentioning

confidence: 93%

Mechanism of the Reduction of Lead Ions in Aqueous Solution (a Pulse Radiolysis Study)

Breitenkamp¹,

Henglein²,

Lilie³

1976

Ber Bunsenges Phys Chem

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101

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Elekrrochemie / Freie Radikale Reaktionskinetik / ~~r a~l e n c~e m~ePure lead is precipitated in the y-irradiation of aqueous solutions of lead perchlorate or lead acetate containing also an organic solute for scavengingOH radicals. The yields in the presence of the radical'scavenger are above 3 lead atoms/100eV for formate and aliphatic alcohols and about 0.3 for cyclopentane and t-butanol. Pulse radiolysis experiments showed that hydrated electrons and 1-hydroxy alkyl radicals reduce Pbz+ to form Pb'. Pb' can disproportionate to form Pb + Pb2+. Pb+ can also react with I-hydroxylalkyl radicals to form lead organic compounds that decompose to form Pb. The rate constants of these reactions were determined. Pb2+ solutions were also pulse irradiated under a hydrogen pressure of 50 atm. H atoms did not reduce Pb2' under our concentration conditions. They reacted with Pb+ to form the intermediate PbH+. Its spectrum was measured and the rate constant for its disappearance according to 2PbH' -+ Pb2+ + Pb + H2 was determined.The results are discussed in terms of the standard redox potentials of the systems Pb2+/Pb+ and Pb'/Pb in connection with the standard potentials of I-hydroxyalkyl radicals and hydrogen atoms. A comparison..of the lead reduction is also made with the reduction of Ni2+ and CdZ+. The intermediates of the reduction in the presence of H atoms may also be present in the dissolution of metals in water under HZ production. Reines Blei fallt bei y-Bestrahlung wadriger Losungen des Bleiperchlorats oder -acetats aus, wenn diese Losungen gleichzeitig eine organische Substanz als Fanger fur OH-Radikale enthalten. Die Ausbeute betragt mehr als drei Bleiatome pro 100 eV fur Formiat und aliphatische Alkohole als Fanger und etwa 0,3 fur Cyclopentan und t-Butanol. Die pulsradiolytischen Experimente zeigten, daO das hydratisierte Elektron und 1-Hydroxyalkylradikale Pb" zu Pb+ reduzieren. Pb+ kann zu Pb + Pbz+ disproportionieren. Pb+ kann auch mit I-Hydroxyalkylradikalen zu bleiorganischen Verbindungen kombinieren, die schlieBlich unter Bildung von Blei zerfallen. Die Geschwindigkeitskonstanten dieser Reaktionen wurden bestimmt. Pb2 +-Losungen wurden ebenfalls unter einem Wasserstoffdruck von 50 atm pulsbestrahlt. Das H-Atom konnte Pb2+ unter unseren Konzentrationsbedingungen nicht reduzieren. Ek reagierte aber mit Pb+ zu PbH+ . Das Spektrum dieser Teilchen und die Geschwindigkeitskonstante seines Verschwindens nach 2PbH+ --t Pb2+ + Pb + H2 wurden gemessen. Die Ergebnisse werden im Hinblick auf die Standard-Redoxpotentiale der Systeme Pb2 +/Pb+/Pb und die Standardpotentiale der Oxidation und Reduktion der I-Hydroxyalkyl-Radikale und das Wasserstoffatoms diskutiert. Ein Vergleich mit der Reduktion von NiZ 'und Cd2 '-Ionen wird ebenfalls angestellt. Die Zwischenprodukte der Reduktion in Gegenwart von H-Atomen spielen moglicherweise auch eine Rolle bei der Auflosung von Metallen in Wasser unter Entwicklung von Wasserstoff.

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Pulse radiolytic investigation of the reduction of cadmium(II) ions

Cited by 44 publications

References 0 publications

Pulse Radiolysis Study of Cd EDTA² ̄and Pb EDTA² ̄ in Alkaline Solution in the Presence of Alcohols

Pulse Radiolysis Study of Cd EDTA² ̄and Pb EDTA² ̄ in Alkaline Solution in the Presence of Alcohols

Formation of Cd particles by UV laser irradiation

Mechanism of the Reduction of Lead Ions in Aqueous Solution (a Pulse Radiolysis Study)

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Pulse radiolytic investigation of the reduction of cadmium(II) ions

Cited by 44 publications

References 0 publications

Pulse Radiolysis Study of Cd EDTA2 ̄and Pb EDTA2 ̄ in Alkaline Solution in the Presence of Alcohols

Pulse Radiolysis Study of Cd EDTA2 ̄and Pb EDTA2 ̄ in Alkaline Solution in the Presence of Alcohols

Formation of Cd particles by UV laser irradiation

Mechanism of the Reduction of Lead Ions in Aqueous Solution (a Pulse Radiolysis Study)

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Pulse Radiolysis Study of Cd EDTA² ̄and Pb EDTA² ̄ in Alkaline Solution in the Presence of Alcohols

Pulse Radiolysis Study of Cd EDTA² ̄and Pb EDTA² ̄ in Alkaline Solution in the Presence of Alcohols