Chemical communications (Cambridge, England), 48(3), 330-346 (2011-09-01)
Samarium diiodide (SmI(2)) is one of the most important reductive electron transfer reagents available in the laboratory. Key to the popularity of SmI(2) is the ability of additives and co-solvents to tune the properties of the reagent. Over the last
Samarium(II)-iodide-mediated cyclizations in natural product synthesis.
Expert review of anticancer therapy, 7(11), 1517-1527 (2007-11-21)
Radiation therapy can be an effective means to treat bone metastases, which occur in more than 50% of cancer patients. (153)Samarium lexidronam ((153)Sm-EDTMP; Quadramet, Cytogen) is a radiopharmaceutical designed for deposition into bone metastases. Bone scans can identify patients that
Chemical Society reviews, 33(9), 599-609 (2004-12-14)
The development of methodologies for the formation of carbon-carbon double bonds could be considered one of the most important challenges in organic synthesis. To this end, beta-elimination reactions in 1,2-difunctionalised substrates have been one of the most important means of
Yakugaku zasshi : Journal of the Pharmaceutical Society of Japan, 120(3), 245-255 (2000-03-21)
This review deals with the rapid reduction of a variety of organic functionalities, including a new selective reduction of carboxylic acid, with samarium diiodide in the presence of additives under mild conditions. The single electron donor ability of samarium diiodide
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