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News & Highlights
Analytical Cluster (standard protocols)
Computer simulation of lignin production
Industrially 80% phenol replacement in resoles
New lignin production plant in Canada
New lignin production plant in Finland
2 new updated GPC protocols
Molecular mass reference samples
Lignin is an organic substance binding the cells, fibres and vessels which constitute wood and the lignified elements of plants, as in straw. After cellulose, it is the most abundant renewable carbon source on Earth. Between 40 and 50 million tons per annum are produced worldwide as a mostly non commercialized waste product.
It is not possible to define the precise structure of lignin as a chemical molecule. All lignins show a certain variation in their chemical composition. However the definition common to all is a dendritic network polymer of phenyl propene basic units.
There are two principal categories of lignin: those which are sulphur bearing and those which are sulphur-free. It is the sulphur bearing lignins which have to date been commercialized. These include lignosulphonates (world annual production of 500,000 tons) and Kraft lignins (under 100,000 tons p.a.). Due to the lack of suitable industrial processes, the sulphur-free lignins are as yet non-commercialized.

Cross section; lignin impregnated wood

Examples for typical structures in lignin's chemical formula
As a natural and renewable raw material, obtainable at an affordable cost, lignin's substitution potential extends to any products currently sourced from petrochemical substances. The areas in which lignin is applicable include:
1) Multy-polarity related products
  Lignin contains both hydrophilic and hydrophobic groups. Specific treatments can strengthen either characteristic for particular applications as in emulsions and dispersants.
2) Materials
  Binders, thermoset, etc. Lignin is a natural branched and crosslinked network polymer which lends itself to use in materials.
3) Agriculture
  Lignin and lignin derived products play an important role in the formation of soils and in plant and animal nutrition.
4) High purity / value applications
  High purity support materials or active substances: lignin can be used as support materials for food and cosmetic applications comprising gels or emulsifiers; specially prepared lignins are suitable as an active substance with anti-oxidant, anti-bacterial and anti-viral properties. These qualities have already been explored and could play an important role in the future.

A lot of agro-industrial applications
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