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The pK a of protonated triethylamine is 10.75, [4] and it can be used to prepare buffer solutions at that pH. The hydrochloride salt, triethylamine hydrochloride (triethylammonium chloride), is a colorless, odorless, and hygroscopic powder, which decomposes when heated to 261 °C. Triethylamine is soluble in water to the extent of 112.4 g/L at ...
Triethanolamine is used primarily in making surfactants, such as for emulsifier.It is a common ingredient in formulations used for both industrial and consumer products. The triethanolamine neutralizes fatty acids, adjusts and buffers the pH, and solubilizes oils and other ingredients that are not completely soluble in wate
DMTMM uses a typical mechanism to form carboxylic acid derivatives. [1] First, the carboxylic acid reacts with DMTMM to form the active ester, releasing a molecule of N-methylmorpholinium (NMM). The resulting ester is highly reactive and can undergo a nucleophilic attack by an amine, an alcohol, or another nucleophile. [3]
As originally determined by Staudinger, [7] oxalyl chloride reacts with water giving off gaseous products only: hydrogen chloride (HCl), carbon dioxide (CO 2), and carbon monoxide (CO). [9] (COCl) 2 + H 2 O → 2 HCl + CO 2 + CO. Other acyl chlorides hydrolyze with formation of hydrogen chloride and the original carboxylic acid.
Menshutkin-reaction. The reaction is the method of choice for the preparation of quaternary ammonium salts. [1] Some phase transfer catalysts (PTC) can be prepared according to the Menshutkin reaction, for instance the synthesis of triethyl benzyl ammonium chloride (TEBA) from triethylamine and benzyl chloride: Menshutkin reaction
Triethylenetetramine (TETA and trien), also known as trientine when used medically, is an organic compound with the formula [CH 2 NHCH 2 CH 2 NH 2] 2.The pure free base is a colorless oily liquid, but, like many amines, older samples assume a yellowish color due to impurities resulting from air oxidation.
The reaction conditions allow oxidation of acid-sensitive compounds, which might decompose under the acidic oxidation conditions such as Jones oxidation. For example, in Thompson & Heathcock's synthesis of the sesquiterpene isovelleral, [ 15 ] the final step uses the Swern protocol, avoiding rearrangement of the acid-sensitive ...
The acid chloride suffers attack by diazomethane with loss of HCl. The alpha-diazoketone (RC(O)CHN 2) product undergoes the metal-catalyzed Wolff rearrangement to form a ketene, which hydrates to the acid. [16] [17] [4] The rearrangement leaves untouched the stereochemistry at the carbon alpha to the acid chloride. [6]