Log In
Register
Facebook icon
Instagram icon
LinkedIn icon
Twitter X icon
Flavor
Fragrance
News
Events
Leaders
Multimedia
Home
Search
Search Perfumer & Flavorist: Page 6
Article
Company
Document
Event
News
Podcast
Video
Webcast
Flavor
Fragrance
Ingredients
Multimedia
Enter search phrase
Search
96 Results
Section: Fragrance > Ingredients
News
Afyren Launches Flavyren Portfolio of Carboxylic Acids
The portfolio is designed to be used in a large panel of flavors and fragrances compositions for the production of authentic tastes and smells.
Ingredients
Debut and L'Oréal Are Developing 12+ Bioidentical, Biobased Substitutions for Conventional Cosmetic Ingredients
"Creating bioidentical ingredients at scale helps preserve global biodiversity and secure responsible ingredient supply chains while continuing to prioritize quality and product performance," said Debut founder and CEO Joshua Britton, Ph.D.
Ingredients
Fragrant Esters of 3-Cyclohexylbutanoic Acid
Thus, the acid is not too easily available, but remarkable fragrant properties of its esters raise the interest in its production. The first four stages of its synthesis have been described previously. Prin’s reaction of α-methylstyrene with formaldehyde yields 4-methyl-4-phenyl-1,3-dioxane.
Ingredients
iso-Valeric Acid in Dairy, Brown, Nut, Savory, Alcoholic Drink & Fruit Flavors
The profile of iso-valeric is very much stereotypical of the primary cheese odor, without any hint of the faint goaty character that starts to creep into the series of aliphatic acids from six carbon atoms upwards.
Ingredients
The Chemical Composition of the Leaf Essential Oils from 110 Citrus Species, Cultivars, Hybrids and Varieties of Chinese Origin
We carried out systematic analytical studies on the composition of the leaf oils from 110 citrus species, varieties, hybrids and cultivars of Chinese origin in order to look for new resources for essential oils and provide the systematic chemical-composition data of the leaf oils for the taxonomy of citrus plants.
Ingredients
HESP—A New Essential Oil From the Acid Hydrolysate of Spent Sandal Heartwood
In the present study, the utilization of the spent (exhausted) sandalwood powder from steam distillation as a source of an acid hydrolysate oil is examined. It has been found that hydrolysis of the non-volatile portion of an acetone extract of the spent sandalwood powder with methanolic hydrochloric acid followed by steam distillation gave rise to a new essential oil (1.2% yield) which we have called HESP, the acronym for hydrolyzed exhausted sandalwood powder.
Previous Page
Page 6 of 6
