Karen Libson scite author profile

Several bis(ethylenediamine)cobalt(III) complexes containing chelated, S-bonded sulfenic acid ligands have been synthesized and characterized. [(en)2Co(S(0)CH2CH2NH2)]2+ and [(en)2Co(S(0)CH2COO)]+ are prototypes of this class of complexes. The general preparative route to sulfenato complexes involves stoichiometric oxidation of the corresponding thiolato complex with a 2-equiv oxidant, e.g., H202, in aqueous solution. Subsequent oxidation converts the sulfenato complex to the corresponding sulfinato complex. The ligand field strength and the electronegativity of the ligating sulfur atom increase monotonically along the thiolato-sulfenato-sulfinato series. The S-bonded sulfenato ligand exhibits a characteristic S-0 stretch in the region 950-1000 cm"1 and a characteristic charge-transfer absorption at ca. 360 nm. Reversible protonation of the sulfenato ligand occurs in aqueous HC104 solutions; the protonation constant of [(en)2Co(S(0)CH2CH2NH2)]2+ at 25 °C, µ = 4.0 M, is 1.4 ± 0.2 M"1. Sulfenato-cobalt(III) complexes slowly decompose in aqueous acidic media to yield a variety of products including cobalt(II). The single-crystal X-ray structure analysis of (2-sulfenatoethylamine-A,S)bis(ethylenediamine)cobalt(III) thiocyanate, refined to a conventional R factor of 0.030, is reported. The cobalt(III) center is approximately octahedrally coordinated (five N atoms and one S atom) while the sulfenato sulfur atom is three-coordinate (Co, C, and O). The Co-N bond trans to the sulfenato sulfur atom is significantly longer than the average of the cis Co-N bonds, = 0.072 (8) Á. The rates of H202 oxidation of [(en)2CoS(0)CH2CH2NH2)]2+ in aqueous perchloric acid media are reported as a function of [H202], [H+], and temperature. The mechanism of this reaction is discussed in terms of nucleophilic attack by the coordinated sulfur on the 0-0 bond of H202, the coordinated sulfur atom having about the same nucleophilicity as the sulfur atom of SCN". The observed acid catalysis presumably reflects the greater reactivity of H302+ as a nucleophilic substrate. This acid catalysis is significantly less effective in this system than in analogous H202 oxidations, implying that within the acid-catalyzed transition state there is an interaction between the proton and the sulfenato moiety which decreases the overall efficacy of

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Structural characterization of a technetium-99-diphosphonate complex. Implications for the chemistry of technetium-99m skeletal imaging agents

Libson¹,

Deutsch²,

Barnett³

1980

J. Am. Chem. Soc.

117

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Re-186(Sn) HEDP for treatment of multiple metastatic foci in bone: human biodistribution and dosimetric studies.

Maxon¹,

Deutsch²,

Thomas³

et al. 1988

Radiology

119

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Investigation of the biodistribution of subtherapeutic amounts of a new, chromatographically purified rhenium-186(tin) hydroxyethylidene diphosphonate radiopharmaceutical have been completed in five patients with metastatic carcinoma to bone. The new agent localizes in metastatic foci in bone in the same manner as do standard technetium-99m diphosphonate bone-scanning agents and appears able to deliver therapeutic radiation doses of thousands of rads (tens of grays) to these metastatic foci while limiting the total red marrow dose to less than 75 rad (0.75 Gy). The simultaneous treatment of multiple metastatic foci in bone appears feasible with this new agent.

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Technetium Chemistry and Technetium Radiopharmaceuticals

Deutsch¹,

Libson²,

Jurisson³

et al. 1983

181

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Karen Libson

The chemistry of rhenium and technetium as related to the use of isotopes of these elements in therapeutic and diagnostic nuclear medicine

Synthesis, characterization, and reactivity of coordinated sulfenic acids

Structural characterization of a technetium-99-diphosphonate complex. Implications for the chemistry of technetium-99m skeletal imaging agents

Re-186(Sn) HEDP for treatment of multiple metastatic foci in bone: human biodistribution and dosimetric studies.

Technetium Chemistry and Technetium Radiopharmaceuticals

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