Chloramine-T Explained

Chloramine-T is the organic compound with the formula CH₃C₆H₄SO₂NClNa. Both the anhydrous salt and its trihydrate are known. Both are white powders. Chloramine-T is used as a reagent in organic synthesis.^{[1] [2]} It is commonly used as cyclizing agent in the synthesis of aziridine, oxadiazole, isoxazole and pyrazoles.^[2] It's inexpensive, has low toxicity and acts as a oxidizing agent. In addition, it also acts as a source of nitrogen anions and electrophilic cations. It may undergo degradation on long term exposure to atmosphere such that care must be taken during its storage.

Reactions

Chloramine-T contains active (electrophilic) chlorine. Its reactivity is similar to that of sodium hypochlorite. Aqueous solutions of chloramine-T are slightly basic (pH typically 8.5). The pK_a of the closely related N-chlorophenylsulfonamide C₆H₅SO₂NClH is 9.5.^[1]

It is prepared by oxidation of toluenesulfonamide with sodium hypochlorite, with the latter being produced in situ from sodium hydroxide and chlorine (Cl₂):^[1]

Uses

Reagent in amidohydroxylation

The Sharpless oxyamination converts an alkene to a vicinal aminoalcohol. A common source of the amido component of this reaction is chloramine-T.^[3] Vicinal aminoalcohols are important products in organic synthesis and recurring pharmacophores in drug discovery.

Oxidant

Chloramine-T is a strong oxidant. It oxidizes hydrogen sulfide to sulfur and mustard gas to yield a harmless crystalline sulfimide.

It converts iodide to iodine monochloride (ICl). ICl rapidly undergoes electrophilic substitution predominantly with activated aromatic rings, such as those of the amino acid tyrosine. Thus, chloramine-T is used to incorporate iodine into peptides and proteins. Chloramine-T together with iodogen or lactoperoxidase is commonly used for labeling peptides and proteins with radioiodine isotopes.^[4]

Certifications

• EN 1276 Bactericidal
• EN 13713 Bactericidal
• EN 14675 Virucidal
• EN 14476 Virucidal Norovirus
• EN 1650 Fungicidal
• EN 13704 Sporicidal Clostridium difficile

External links

• M. Shetty, T. B. Gowda. 46154131. A Study of Substituent Effect on the Oxidative Strengths of N-Chloroarenesulphonamides: Kinetics of Oxidation of Leucine and Isoleucine in Aqueous Acid Medium. Zeitschrift für Naturforschung. 2004. 59. 63–72. 10.1515/znb-2004-0110.
• Chemicalland21.com: Chloramine T (Tosylchloramide sodium)
• InChem.org: Chloramine T
• Web site: Disifin USA . 2010-02-09 . dead . https://web.archive.org/web/20091225181638/http://disifinusa.com/ . 2009-12-25 .

Notes and References

1. 10.1021/cr60311a005. Chloramine T and Related N-halogeno-N-metallo reagents. Chemical Reviews. 78. 65–79. 1978. Campbell. Malcolm M.. Johnson. Graham..
2. Nayak . Yogeesha N. . Gaonkar . Santosh L. . Saleh . Ebraheem Abdu Musad . Dawsari . Abdullah Mohammed A. L. . Harshitha . Husain . Kakul . Hassan . Ismail . 2022-03-01 . Chloramine-T (N-chloro-p-toluenesulfonamide sodium salt), a versatile reagent in organic synthesis and analytical chemistry: An up to date review . Journal of Saudi Chemical Society . en . 26 . 2 . 101416 . 10.1016/j.jscs.2021.101416 . 1319-6103. free .
3. Bodkin . J. A. . McLeod . M. D. . The Sharpless asymmetric aminohydroxylation . J. Chem. Soc., Perkin Trans. 1 . 2002 . 2002 . 24 . 2733–2746 . 10.1039/b111276g.
4. Book: Rösch, F.. Radiochemistry and Radiopharmaceutical Chemistry in Life Sciences . 4 . Kluwer Academic Publishers . Dordrecht, Boston, London .