“A woman who doesn’t wear perfume has no future.”- Coco Chanel
Almost two decades ago, the field of olfaction was unlocked when the Nobel Prize winners Linda Buck and Richard Axel discovered genes that were responsible for encoding olfactory receptors. Since then, a lot has been illuminated through genomic, cellular, molecular, physiological, and anatomical studies of mammalian olfactory system. These studies have extended the understanding and revealed the complexity of science that has been involved in perfumery.
For thousands of years, scents have been sourced directly from nature. Resins were gathered from trees and burned as an offering to Gods; aromatic flowers and herbs were seeped in oil to release their fragrance before being blended and worn. For a majority of time now, chemists have used innovative technologies to add a large assortment of scents for creating new fragrances.
The initial process of steam distillation, wherein petals and leaves were boiled and the evaporated oil was cooled and collected, was perfected in the 11th century and little changed after that until the industrial revolution. But as boiling vegetables for too long can result in the loss of nutrients, distillation loses some of the best parts of a smell to water and can often damage the resulting oil. The chemists then began isolating and blending the aromatic chemical compounds which allowed perfumers to respite from what was strictly found in nature and create an entirely new scent.
The 1980s brought in a new way of capturing volatile molecules of virtually any scented objects in the form of ‘Headspace Technology’ which completely revolutionized the industry. Headspace works like a camera and captures snapshots of the scent’s components and allows them to be recreated in the laboratory.
Next came a three-step process of ‘Essential Oils’, which combined hydro-distillation with steam stripping that captured scent molecules from the residual water to offer a more complete, realistic, and fresh extract compared to the traditional scents. Subsequent was the CO2 extraction process which aimed to capture as much of the scent as possible from a natural material. This technology uses carbon dioxide, which when passed over a natural material in its liquid form, extracts all the scent components without damaging them.
Today, biotechnology has transformed the way perfumes are manufactured, making them more consistent and removed many animal products involved in the process. Some of the most exciting new scents are a result of biotechnology. New advanced research promises to extend these innovations further.
Scientists can now genetically alter yeasts; so instead of fermenting sugar into alcohol, they are producing fragrant compounds that replicate the natural and artificial smells. Crucial to perfumes, ‘Patchouli’ is used to scent everything from laundry detergent to perfumes. This has resulted in crop shortage and restricted its supply, thus causing a price hike of the oil.
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