Thallium(I) sulfate is mainly used in organic synthesis as an oxidizing agent. It can facilitate the oxidation of various organic compounds, such as alcohols, to corresponding aldehydes or ketones. This reaction is commonly known as the Reformatsky reaction.1 Additionally, thallium sulfate is employed in the preparation of thallium salts for use in analytical chemistry and research applications. It is also utilized in the production of luminous paints, photoelectric cells, and low-melting glasses.
Application
Thallium(I)sulfate is also utilized in:
the synthesis of alkylated cyclopentadienes and 7-substitutedbicyclo[2.2.1]heptane derivatives[1]
inthe preparation of thallium borate species such as TlBPH43
Journal of toxicology and environmental health, 43(3), 351-359 (1994-11-01)
Cytotoxicities of metal salts were determined in the intestinal epithelial cell line I-407 in microwell culture plates over 48 h using the widely utilized and accepted neutral red uptake procedure. Rank order cytotoxicities induced by the metal salts (in terms
Changes in adenosine triphosphate (ATP) concentration and its activity in murine tissue after thallium administration.
M Yoshida et al.
Bulletin of environmental contamination and toxicology, 59(2), 268-273 (1997-08-01)
Guided by the idea of providing a stable electrolyte composition of the dialysate, the late Bernd Tersteegen designed a machine ingeniously combining the advantages of a closed tank hemodialysis system with the efficacy and bacteriological safety of a single-pass system.
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