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Breakthrough in lignin research: Spherical particles multiply enzyme efficiency

Lignin, a pulp industry by-product, could replace fossil materials

Date:
June 12, 2018
Source:
Aalto University
Summary:
Lignin, a pulp industry by-product, could replace fossil materials.
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Researchers at Aalto University and York University have succeeded in creating a water-repellent composite structure out of lignin particles, in which the enzymes or biocatalysts can be separated from surrounding water. The breakthrough was accomplished when the researchers discovered that, by regulating the surface charge of single lignin particles, enzymes can be made to adhere to the surface of particles. As material supporting the structure, they utilised a natural polymer isolated from seaweed.

The starting point for the research was the need to utilise lignin, a pulp industry by-product, for new, large-scale purposes. The researchers were surprised to discover that, when introduced, the lignin particles multiplied enzyme efficiency and enabled enzyme recycling in a synthetic reaction that would not otherwise occur in water.

"The beauty of this method lies in its simplicity and scalability. We are already able to manufacture lignin particles in batches of several kilogrammes. Of course, we hope that this will become a sustainable option for the enzyme industry to replace fossil materials in technical applications," says Postdoctoral Researcher Mika Sipponen.

Lignin not only multiplies enzyme efficiency, it also shows good results in comparison to those substances currently on the market, created from unsustainable sources. "The commercial enzyme we use as reference is attached to the surface of synthetic acrylic resin produced from fossil raw materials. In comparison, this new biocatalyst was at best twice as active," Sipponen adds.

In the reaction, alcohol and organic acid created in biofuel production produced a water-insoluble ester with a pineapple scent. The process opens up new possibilities for the production of bio-based polyesters, as well.

"We are pleased that the years of investing in the lignin particle research are beginning to produce significant results. We envision several possible uses for spherical particles in green chemistry processes and the development of new materials," says research leader Professor Monika Österberg.


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Materials provided by Aalto University. Note: Content may be edited for style and length.


Journal Reference:

  1. Mika Henrikki Sipponen, Muhammad Farooq, Jari Koivisto, Alessandro Pellis, Jani Seitsonen, Monika Österberg. Spatially confined lignin nanospheres for biocatalytic ester synthesis in aqueous media. Nature Communications, 2018; 9 (1) DOI: 10.1038/s41467-018-04715-6

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Aalto University. "Breakthrough in lignin research: Spherical particles multiply enzyme efficiency." ScienceDaily. ScienceDaily, 12 June 2018. <www.sciencedaily.com/releases/2018/06/180612105728.htm>.
Aalto University. (2018, June 12). Breakthrough in lignin research: Spherical particles multiply enzyme efficiency. ScienceDaily. Retrieved December 22, 2024 from www.sciencedaily.com/releases/2018/06/180612105728.htm
Aalto University. "Breakthrough in lignin research: Spherical particles multiply enzyme efficiency." ScienceDaily. www.sciencedaily.com/releases/2018/06/180612105728.htm (accessed December 22, 2024).

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