VTT Researchers Use Nature's Own Solvents for Preparation of Pure Lignin
VTT Technical Research Centre of Finland has developed solvents using which 50% of the lignin from wood can be extracted in a pure form that retains its natural chemical structure during processing.
Sept. 15, 2016 (Press Release) - Lignin can now be efficiently and cost-effectively separated from sawdust, by using eutectic solvents. VTT Technical Research Centre of Finland has developed solvents using which 50% of the lignin from wood can be extracted in a pure form that retains its natural chemical structure during processing. Using eutectic solvents, it may be possible to produce materials for use in the forest, food processing, pharmaceutical, packaging and mining industries in the future.
The use of eutectic solvents presents a range of opportunities for using lignin in industrial applications. A VTT research programme aims to replace petroleum-based chemicals with cost-effective, environmentally friendly alternatives in forest, pharmaceutical and mining industry applications; these will provide Finnish companies with a competitive edge on the international markets.
One of the key results of the research is the separation of lignin from sawdust in such a manner that up to 100% of the lignin maintains its natural chemical structure. Conventional processes provide lignin in a form which is much less usable in terms of its chemistry. This is why lignin has mainly been used for combustion in energy production. Lignin which has retained its natural organic structure is thought to be more reactive and homogeneous, and therefore easier to use in various applications. The research findings were recently published in the journal, Scientific Reports (Jaakko Hiltunen et al.) Scientific Reports, 2016, 6, Article number: 32420; DOI: 10.1038/srep32420).
VTT's research is also opening up new opportunities to use enzymes in fractionation and metabolising processes — according to the preliminary results, carbohydrate-metabolising enzymes can maintain their stability surprisingly well in certain DES solvents, whereas enzymes have tended to be relatively unstable in new biomass-degrading solvents, such as ionic liquids, which resemble DES solvents in many of their properties. The research findings were published this year in the RSC Advances journal (Ronny Wahlström et al. RSC Adv., 2016, 6, 68100-68110; DOI: 10.1039/C6RA11719H).
Some components of eutectic solvents are fit for consumption. Interactions between the components enable chemical reactions that would be impossible to create with conventional chemical processes.
Eutectic solvents are prepared simply by heating and stirring and are inexpensive compared to conventional ionic solvents. However, their recoverability and recyclability via industrial processes have to be investigated in each case.
VTT is studying eutectic solvents as part of the 'Oil-free chemistry programme' funded by Tekes, which ended in the spring of 2016. The results indicate that eutectic solvents can be utilised in applications such as biomass fractionation, the stabilisation of certain enzymes, and potential new surface-active agents.
What are eutectic solvents?
A eutectic solvent incorporates two or more substances with high melting points in a mixture with a melting point substantially lower than any of the individual pure components. A known example of this is the mixture (mole ratio 1:2) of choline chloride (mp 302°C) and urea (mp 133°C), which has a melting point of 12°C.
Eutectic solvents represent the next generation of organic solvents; wider research into their possible applications only began in recent years.
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SOURCE: VTT Technical Research Centre of Finland