Skip to product information
1 of 2

cis-6-Nonenol 1% TEC

SKU: 68003-10

cis-6-Nonenol 1% TEC

Regular price $12.04 USD
Regular price Sale price $12.04 USD
Sale Sold out
Shipping calculated at checkout.
Ingredients Bottle Size
Sold by weight where possible - more information
Please note that all ingredients for perfumery are made to order products and therefore not eligible for returns or refunds. Please see our refund policy. This does not affect other products which can be returned in accordance with your statutory rights and the above policy.

CAS No.
35854-86-5

Odour (decreasing):
Fresh, sweet, green-melon, honeydew, cantaloupe, cucumber, clean

Solvent:
TEC to form a 1% solution of cis-6-Nonenol

Main Synonyms:
  C6 nonenol, cis-6-nonen-1-ol, melon alcohol


Melon Alcohol in TEC

Description and usage notes:

In proper dilution this is a very beautiful, natural and edible-smelling melon note that is also very watery.  

Widely used in melon, watermelon, strawberry and related fruit flavours it can equally be used to contribute to those notes in fragrance.

See also the similar, but even more potent cis-6-Nonenal.

In fragrances it is also useful to add lift and diffusion (in a similar way to that provided by trans-2-cis-6-nonadienal).  In this context very tiny traces are used, while up to 0.1% might be included in a fragrance with a dominant melon note.

Writing in 1978 Arcadi Boix Camps says “Let us mention cis-6-nonenol, with an absolutely natural and intense melon character, which could lead to important innovations in the future.”  In 1985 he talks about a group of materials he calls ‘melon fuitals’: “... which includes products as extraordinary as ... cis-6-nonenol, MelonalFloralozone, Helional and the extraordinary Calone” 

This material is both extremely powerful and quite expensive and as such is presented for sale at 1% in TEC, we also offer it at 1% in DPG.  If you work on a larger scale you may prefer our 10% in DPG option.

  Aroma Chemicals, clean, cucumber, fresh, green, High impact materials, Ingredients for Perfumery, Liquids, melon, Molecules, natural, radiant, refreshing, sweet, watermelon, watery,

Documentation

No Safety Data Sheet (SDS) documentation is available for this product.

Other documentation such as allergen reports and IFRA statements may be available for specific products for logged in users only. Log in to access any additional documentation.

Documentation isn't necessarily available for every product and is supplied in accordance with our Product Documentation Policy.

Shipping & Returns

Pell Wall are proud to ship to almost anywhere in the world! All of our orders are packed in and shipped from the United Kingdom. We use various couriers to ship with depending on the destination country.

Please visit our dedicated help centre page for more information on shipping and delivery.

Acknowledgements

Descriptions

Each entry contains a short list of scent notes with occasionally other short commentary to assist those who may not have encountered the material previously to decide whether it is of interest: I recommend you make your own assessment of each and every perfumery material you use however.

After pricing, quantity options and other basic details scroll down for narative descriptions: these are intended to assit interested readers as well as potential purchasers to assess the uses and potential of the material in question.

Many of the descriptions contain quotations from the manufacturer of the product and in addition I have quoted fairly extensively from Arctander[1] and from Arcadi Boix Camps[2] – both independent writers and both highly experienced perfumers.

There are also some quotes from Bedoukian[3] where details of the chemistry of a material are significant and from Scent & Chemistry[4] the authors of which have taken an analytical approach to the art of perfumery that is unusual and very useful. Quotations have been included from the extremely useful teaching books by Calkin & Jellinek[5] and Curtis & Williams[6] and Surburg and Panten [7] as well.

Anything not identified as a quotation is my own opinion of the material in question and it’s uses, but I am grateful to many other sources and perfumers as well as the expert authors named here.  Please note that these descriptions are copyright of the author and, other than properly achnowledged fair use quoations as defined in English Law, republication in any form is not permitted.


[1] Steffen Arctander: quotations are taken from Perfume and Flavor Chemicals published in 1969 and Perfume and Flavor Materials of Natural Origin published in 1961

[2] Arcadi Boix Camps: quotations are taken from Perfumery: Techniques in Evolution, 2nd Edition published in 2009, but containing material written in 1978, 1985, and 1999 as well – where relevant the date of writing is noted with the quotations.

[3] Bedoukian: quotations are taken from Perfume and Flavoring Synthetics, 3rd, Revised Edition by Paul Z. Bedoukian, Ch.E., Ph.D. Published in 1986.

[4] Scent & Chemistry by Ohloff, Pickenhagen and Kraft, published as a book of that name in 2012, from which I have quoted, but also referencing updates on their maintained Facebook page . In addition this tag is used in the descriptions for other works involving the same authors, including:

  • Felker, I., Pupo, G., Kraft, P. and List, B. (2015), Design and Enantioselective Synthesis of Cashmeran Odorants by Using “Enol Catalysis”. Angewandte Chemie Int. Ed., 54: 1960–1964.
  • Kraft, P. and Popaj, K. (2008), Unexpected Tethering in the Synthesis of Methyl-Substituted Acetyl-1-oxaspiro[4.5]­decanes: Novel Woody–Ambery Odorants with Improved Bioavailability. Eur. J. Org. Chem., 2008: 261–268.
  • Kraft, P. (2004) Aroma Chemicals IV: Musks, in Chemistry and Technology of Flavors and Fragrances (ed D. J. Rowe), Blackwell Publishing Ltd., Oxford, UK.

[5] Calkin & Jellinek: quotations are taken from Perfumery: practice and principles by Robert R. Calkin, J. Stephan Jellinek, published in 1994.

[6] Curtis & Williams: quotations are taken from An Introduction to Perfumery 2nd Edition, by Tony Curtis and David G Williams, published in 2001

[7] Surburg and Panten: quotations are taken from Common Fragrance and Flavor Materials. Preparation, Properties and Uses. 5th Edition by Horst Surburg and Johannes Panten (Copyright 2006 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim), published in 2006


Spelling

A quick note about spellings: this website is primarily written in British English - it is after all written by an English Perfumer - however most of the authors mentioned here and many of the manufacturers were writing for American audiences and published using American English: where that is the case I have, as far as possible, preserved the spelling used in the source material.  As a result there may be inconsistencies on any given page, but that seemed to me better than arbitrarily changing material in the process of quotation.


Quantity Options

We’ve recently had a change of policy - and bought some new containers - so now all ingredients are sold by weight whether they are solids or liquids.  Only the 10ml and 5ml sizes incorporated in kits, and a few inexpensive materials such as solvents, are still done by volume.  Even the 5ml and 10ml sizes will now be filled to contain 5g or 10g regardless of whether the material is solid or liquid.

Liquids up to 10g in glass bottles (where the fill level may vary as illustrated above), 30g and 50g in HDPE Plastic.

Those materials available in 1Kg are normally supplied in aluminium flasks similar to those used for the 500g size, though we do supply a few materials in HDPE bottles as well.

Finally please note that, with some 500 different materials and so many size options we don’t hold ready-to-sell stocks: when you buy perfumery ingredients we will prepare them to order for you.  This means that large orders can sometimes take a few days to prepare and also that we don’t offer refunds on ingredients, unless of course there is a fault of some kind.

View full details
Carbon-neutral shipping with Shopify Planet
Carbon-neutral shipping on all orders
We fund innovations in...
Direct Air Capture
Bio Oil
Mineralization