A three-column infographic, titled “Faking Flavors with Chemistry,” explaining how artificial flavors are formulated and produced.
The first column highlights three early artificial flavors: vanillin (vanilla, 1870s), methyl anthranilate (grape, early 1900s), and diacetyl (butter, 1920s). 
The second column points out that it’s more common for flavors to have several chemical contributors. Chemists determine these using analytical methods. The primary method used is gas chromatography, which separates compounds in a sample according to their boiling points and solubilities. The output tells us how much of each compound is present, and the chromatograph can be connected to a mass spectrometer and a sniff port for further identifying information.
The third column discusses how flavor molecules are made once they’ve been identified. Usually, they’re extracted from plants or made in the lab. However, chemists are turning to biotechnological methods, which allow them to market produced flavor molecules as natural. One method is biosynthesis, in which microbes metabolize simple chemical building blocks to make flavor compounds over multiple reaction steps. Another method is biotransformation, which uses microbes or their isolated enzymes to make flavor compounds from a similar starting substance in simple reactions.


For over a century, chemists have made flavor molecules to evoke particular tastes. How do they know which compounds create a particular flavor, and how do they make these molecules? cen.acs.org/food/food-sc...

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Machine learning improves beer flavor Algorithm correlates online reviews with chemical profiles of hundreds of beers, providing a roadmap to enhance taste

Scientists have shown that machine learning could help make beer better by predicting how to tweak a brew’s chemical profile to enhance its flavor.

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cen.acs.org/food/food-sc...

A glowing shot of tequila.

Curcumin, a fluorescent molecule in turmeric, is not very soluble in water. That’s why Anna Eliasson uses tequila to teach her friends about fluorescence: cen.acs.org/articles/96/...

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Comment: Why flavor chemistry is the perfect gateway for outreach to all ages Chemical & Engineering News (C&EN): Keeping you up to date with the chemistry news that matters most. Published by the American Chemical Society.

"Chemistry becomes meaningful when it’s rooted in relevance, when someone sees it, tastes it, and feels it. And what better gateway than spices?"

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Visualise “The Hidden Life of Spices” with our colourful selection of icons to draw spice experiments!

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Why yogurt fermented with live ants is so delicious Scientists explore a traditional Balkan recipe that uses the insect and its microbiome as fermentation

Ants usually get into yogurt by accident. But a research team recently added the insects on purpose while reviving a traditional recipe.

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Hot peppers have 3 chemicals that actually make them less spicy Farmers might be able to breed less-pungent chilis by boosting the levels of these compounds

Chili pepper names tell you everything you need to know: Dragon’s Breath, Carolina Reaper, Naga Viper. Researchers have now found three molecules in hot peppers that suppress those spicy sensations.

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Have we hit peak pumpkin spice? Learn the chemical secrets behind your favorite fall flavors. www.youtube.com/watch?v=SsHs...

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Science communication that breaks the mold Chemical & Engineering News (C&EN): Keeping you up to date with the chemistry news that matters most. Published by the American Chemical Society.

We’re now well into the season of pumpkin spice everything: baked goods, scented candles, and of course, the classic latte. If humans enjoy pumpkin spice so much, what do fungi think of the ubiquitous fall flavor?

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What’s pumpkin spice flavor, and why do we fall for it every autumn? The popular latte and treat seasoning contains no actual pumpkin, but it boasts plenty of food chemistry

What’s pumpkin spice flavor, and why do we fall for it every autumn? The popular latte and treat seasoning contains no actual pumpkin, but it boasts plenty of food chemistry.

#NationalChemistryWeek #ACS_NCW #SpiceChemistry cen.acs.org/articles/92/...

This graphic explains four examples of chemicals in spices having effects outside cooking. The four examples include a clove compound’s ability to treat toothaches, a nutmeg compound’s ability to cause hallucinations, a licorice extract compound’s ability to raise blood pressure, and a fenugreek compound’s ability to make urine and sweat smell like maple syrup.

#NationalChemistryWeek (NCW), celebrated October 19–25, features the theme “The Hidden Life of Spices,” highlighting the chemistry behind how spices create flavor, aroma, and color: www.acs.org/education/na...

#PeriodicGraphics: cen.acs.org/biological-c...

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