Search Perfumer & Flavorist

404 Results

Labdanum Resinoid

A strong fragrance material from Albert Vieille.

New Constituents in Olibanum Resinoid and Essential Oil

Olibanum, or frankincense, a well appreciated perfume raw material, is a gum-resin produced by wild small trees growing in Arabia and Somaliland. This gum-resin results either from natural exudation or from unnatural incisions made in the bark of the tree. The gums from Arabia and Somalihind converge to Aden, the main trade place for olibanum; these gums usually result from two species of the genus Boswellia (fam. Burseraceae): Boswellia carterii Bird, (Arabia and Somaliland) and Boswellia frereana Bird. (Somaliland).

pf_mane_lead_42518

MANE's Vanilla Resinoid M_55436

MANE's Vanilla Resinoid M_55436 provides a powerful taste of vanilla bean, with a hint of woody notes, that can be used in a variety of dairy and chocolate products.

Styrax Resinoid MD

Ventos offers this 100% natural material for fine fragrances.

mane850

Mane's Cocoa Resinoid

Water-soluble, this material is particularly interesting to use in dairy and beverage where there is no decantation phenomenon and no residue.

850x425-PROct20Mane

Mane's Four Corners Alcoholic Resinoid-M_0064740

Symrise

Symrise AG's Irisnitrile

Colada has notes of pineapple and coconut mixed with Irish Cream.. Photo: Baileys' Facebook.

Baileys Debuts Limited-Edition Colada Irish Cream

Colada has notes of pineapple and coconut mixed with Irish Cream.

Identification of Iris Scent Volatiles Using Dynamic Headspace with PDMS Foam Trapping and GC-TOFMS

The importance of when and how fragrance chemicals are extracted in order to accurately reconstitute the scent of a flower. The alluring fragrances of flowers are the primary inspiration for new perfumes. In the quest to develop novel synthetic aroma chemicals, perfumers have increasingly relied upon the assistance of analytical chemists to help them identify major chemicals responsible for floral fragrances.

thyme

Progress in Essential Oils:Thymol-rich Thymus vulgaris oils – Part 2

We take a closer look at the various constituents of thymol-rich thyme oils hailing from various parts of Iran, as well as Turkey, Czech Republic, Spain and Brazil.

celery

Progress in Essential Oils: Celery Seed and Leaf Oils

This month's column discusses the chemical compositions of celery seed leaf and oil.

The range of oils is created using naturally fallen sandalwood trees, sundried in Australia’s desert lands.

Dutjahn Sandalwood Oils Launches Desert Dry Essential Oils Collection

The range of oils is created using naturally fallen sandalwood trees, sundried in Australia’s desert lands.

Progress in Essential Oils: Mentha Citrate and Ajowan Oils

This edition discusses the chemical composition of Ajowan oil and Mentha citrata oil.

Natural Essential Oils: Extraction Processes and Application to Some Major Oils

This discussion offers a brief overview of the different processes used to obtain natural essential oils. The trend of development in natursl essential oils for the near future will be to: —obtain products free of organic solvents —impove the preparation of the plant matter in order to get better yields —develop aromatic molecules through fermentation

PF1711_lawrence_425

Progress in Essential Oils: Thymol-rich Thymus vulgaris oils – Part 1

A derivative of thyme oil, thymol contains antibacterial, anti-inflammatory and antioxidant properties, among others. Part 1 discusses the various constituents of thymol-rich thyme oils.

Progress in Essential Oils: Calmus Oil, Triploid Rhizome-Leaf Oils and More

Calamus oil, triploid rhizome-leaf oils, diploid rhizome oils and Nigella sativa oil.

Progress in Essential Oils: Yarrow Oil, Spikenard Oil, and Dwarf Pine and Mountain Pine Oils

This month's column discusses the chemical compositions of yarrow oil, spikenard oil, and dwarf pine and mountain pine oils

Pattern Recognition Methods for Discrimination of Essential Oils (Rose Oils) by Their Gas Chromatograms

It is possible to distinguish between essential oils of the same type and their mixtures by analysing their gas chromatograms using a pattern recognition method.

Page 1 of 23