Overcoming the current hurdles in the state of the art for use of sugar esters in applications like feed additive, surfactant in Personal & Home Care and gelling agent in industrial products. 


This project focuses on the production and use of sugar esters. Sugar (fatty acid) esters are esters obtained by reacting a sugar with an (fatty) acid. Sugar esters are non-ionic surfactants which generally have very good emulsifying, stabilising or conditioning effects. Moreover, they are readily biodegradable, non-toxic, non-skin irritant, odorless, tasteless and give normal food products after digestion. For these reasons, they are used in many different applications and products, such as pharmaceuticals, detergents, cosmetics, and in the agri-food industry. There are roughly two methods to synthesize sugar esters. On the one hand, sugar esters can be obtained by chemical esterification, generally at high(er) temperatures in the presence of an alkaline catalyst. On the other hand, sugar esters can also be produced enzymatically at more moderate conditions in an organic solvent using lipases or proteases (and subtilisin). 


The main goals and challenges of this project are 1) to identify which chemical identities (sugar composition, fatty acid chain length and degree of saturation, hydrophobicity, degree of esterification, etc.) give the desired and most performant biological functionality/activity, 2) how to produce (and purify) the most relevant sugar esters efficiently and uniquely, 3) how to formulate and emulsify them for the desired end applications, and 4) to test the biological activity of most relevant sugar esters ‘in vitro’ and ‘in vivo’. In first instance, lab-scale production will be pursued, after which (in second 1 instance) production on kg-scale can be pursued if lab-scale production turns out to be technically (and economically) feasible. In the first two years of the project, lab-scale production and ‘in vitro’ testing of relevant sugar esters is targeted. 

Project details

Project type
Innovation Programme
Biobased Value Chains
Project status
In completion
Approved on
Project date
€1 267 196
€1 039 558