Crystallized mint leaves - unique know-how and a tradition
Crystallized mint leaves - delicate, fresh and intense
Crystallized mint leaves - An ideal gift to keep the gourmet traditions alive
Crystallized mint leaves - unique know-how and a tradition
Crystallized mint leaves - delicate, fresh and intense
Crystallized mint leaves - An ideal gift to keep the gourmet traditions alive

Crystallized mint leaves

Discover a unique know-how and a tradition dating back to the Middle Ages in our delicious crystallized mint leaves to slip into a tea !

Conditionnement
  • Cylinder 70g
Last items in stock
€10.75

Tax included

 

Go for our crystallized mint leaves Le Petit Duc !
Crystallized mint leaves are a delicious treat that combine the freshness of mint with a crunchy, sweet texture. These unique candies are perfect for satisfying sweet cravings and offer a refreshing taste experience.

This delicacy is the result of a unique know-how dating back to the Middle Ages, allowing the production of delicate, fresh and intense crystallized mint leaves ! The mint leaves are picked and then crystallized with sugar to preserve the pleasant minty taste. The fine sugar crystals that cover them make this traditional delicacy sparkle.

Everyone has their own favourite way to enjoy crystallised mint leaves : in delicious cocktails, to decorate a beautiful pastry, to accompany an ice cream, to enjoy on their own or with a cup of tea.
These little leaves are packaged in pretty glass jars that can be recycled and reused over and over again. An ideal gift to keep the gourmet traditions alive.

For candy lovers, discover our whole range of traditional candies

Ingredients : sugar, mint leaf 2% coating agent: gum arabic, flavouring, colorant : E141.

Valeurs nutritionnelles pour - nutrition values per 100g : Energie - Energy :1690kJ - 398kcal / Matières grasses - Fat :<0,3g / dont acides gras saturés - of which satured Fat :<0,1g / glucides - carbohydrates : 98g / dont sucres-of which sugars : 85g / protéines - protein : 0,6g / sel - salt : <0,1g.