Diluting your flower scented oil
We have included the dilutions that we used, and our observations, in the table below.
An example: Roses
|Dilution||Volume of flower oil (mL)||Volume of new olive oil (mL)||Scent description|
|1 in 2||10||10||floral|
|1 in 4||5||15||slightly floral & fruity|
|1 in 6||5||25||fruity, not floral|
|1 in 8||5||35||fresh, fruity|
|1 in 10||5||45||fresh, fruity|
You can find a blank copy of the table in the additional PDF file at the bottom of this step. For each dilution, remember to take a new volume of the flower oil you have made and dilute it with new olive oil.
Let us know how your flower extraction went!
When you are done we would love to see your results! Upload a picture of your table and the oil you have made using our open Padlet or the Twitter hashtag #FLchemistry, telling us what flowers you have chosen.
Having filled in the dilutions table, try and provide a quick summary of your results here so we can explore commonalities and variations. For example, you might also like to consider using an alternative to olive oil, such as almond oil, jojoba oil or castor oil, to name just a few.
What’s in a name?
The dilution of a fragrance explains the difference between a perfume, cologne and toilette. Depending on the concentration, usually in ethanol (or a mixture of ethanol in water), it gets a different name:
Eau de Cologne: Typically composed of 2–5% perfume oils
Eau de Toilette: A light spray composition with 5–15% pure perfume essence
Eau de Perfume: Typically contains 10–20% perfume essence
Perfume: Contains 15–40% pure perfume extract with a thicker oilier consistency
Adding ethanol separates out the odours so that you can distinguish them. A perfume oil has a medley of smells. Smelling it would be like listening to an orchestra play all the notes in a symphony at the same time. You might register that you are smelling something sweet, but not that it’s lemon, then jasmine, and finally vanilla. Its diluted nature makes the smell much more enjoyable.
© University of York