68039-49-6Relevant articles and documents
Production process of ligustral
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Paragraph 0008, (2017/07/19)
The invention discloses a production process of ligustral which is widely applied to detergents, fabric softeners, body wash and other daily chemical blending perfume in American Procter and Gamble Company, International Flavors and Fragrances and European Givaudan Company. The process comprises procedures described in brief as follows: (1) a dehydration reaction; (2) a primary addition reaction.
Method for preparing female loyal aldehyde
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Sheet 0023-0029, (2017/02/09)
The invention discloses a ligustral preparation method, which comprises the following steps: 1) adding acrolein to a reaction container filled with 2-methyl-1,3-pentadiene, wherein a reaction temperature is controlled to 45-75 DEG C and a pressure in the reaction container is controlled to 0.10-0.50 MPa during addition; 2) after completing the material adding, aging for 2-6 h at a temperature of 70-100 DEG C; 3) after completing the aging, cooling to a temperature of 30-40 DEG C, slowly heating to a temperature of 85-100 DEG C under -0.070 to -0.085 MPa, and distilling to obtain a heavy distillate ligustral crude product; 4) washing the ligustral crude product with an alkaline solution, and carrying out water washing to achieve a neutral state; and 5) finally carrying out rectification under the protection of inert gas, and collecting a distillate with a boiling point of 78-83 DEG C/10 mmHg to obtain the ligustral finished product. The ligustral preparation method has characteristics of simple preparation process, high product yield, low production cost, and easy industrial production.
Controlled light-induced release of volatile aldehydes and ketones by photofragmentation of 2-oxo-(2-phenyl)acetates
Levrand, Barbara,Herrmann, Andreas
, p. 661 - 664 (2008/03/11)
The light-induced controlled release of fragrances from photolabile 2-oxo-(2-phenyl)acetates via Norrish Type II photofragmentation was evaluated by irradiation of the precursors in different solvents and on cotton in a typical fabric softener application. The desired photooxidation was found to work efficiently in water-based systems, and it tolerates the presence of oxygen. The formation of a certain amount of alcohol besides the desired aldehyde or ketone was attributed to further reaction of the photochemically released carbonyl compound, rather than to ester hydrolysis in an aqueous environment. Schweizerische Chemische Gesellschaft.