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Combination of wood fibers and spider silk could rival plastic

Date:
September 16, 2019
Source:
Aalto University
Summary:
The unique material outperforms most of today's synthetic and natural materials by providing high strength and stiffness, combined with increased toughness.
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Achieving strength and extensibility at the same time has so far been a great challenge in material engineering: increasing strength has meant losing extensibility and vice versa. Now Aalto University and VTT Technical Research Centre of Finland researchers have succeeded in overcoming this challenge, inspired by nature.

The researchers created a truly new bio-based material by gluing together wood cellulose fibres and the silk protein found in spider web threads. The result is a very firm and resilient material which could be used in the future as a possible replacement for plastic, as part of bio-based composites and in medical applications, surgical fibres, textile industry and packaging.

According to Aalto University Professor Markus Linder, nature offers great ingredients for developing new materials, such as firm and easily available cellulose and tough and flexible silk used in this research. The advantage with both of these materials is that, unlike plastic, they are biodegradable and do not damage nature the same way micro-plastic do.

"Our researchers just need to be able to reproduce these natural properties," adds Linder, who was also leading the research.

"We used birch tree pulp, broke it down to cellulose nanofibrils and aligned them into a stiff scaffold. At the same time, we infiltrated the cellulosic network with a soft and energy dissipating spider silk adhesive matrix," says Research Scientist Pezhman Mohammadi from VTT.

Silk is a natural protein which is excreted by animals like silkworms and also found in spider web threads. The spider web silk used by Aalto University researchers, however, is not actually taken from spider webs but is instead produced by the researchers using bacteria with synthetic DNA.

"Because we know the structure of the DNA, we can copy it and use this to manufacture silk protein molecules which are chemically similar to those found in spider web threads. The DNA has all this information contained in it," Linder explains.

"Our work illustrates the new and versatile possibilities of protein engineering. In future, we could manufacture similar composites with slightly different building blocks and achieve a different set of characteristics for other applications. Currently we are working on making new composite materials as implants, impact resistance objects and other products," says Pezhman.

The research project is part of the work of the the Centre of Excellence in Molecular Engineering of Biosynthetic Hybrid Materials (Hyber).


Story Source:

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


Journal Reference:

  1. Pezhman Mohammadi, A. Sesilja Aranko, Christopher P. Landowski, Olli Ikkala, Kristaps Jaudzems, Wolfgang Wagermaier, Markus B. Linder. Biomimetic composites with enhanced toughening using silk-inspired triblock proteins and aligned nanocellulose reinforcements. Science Advances, 2019; 5 (9): eaaw2541 DOI: 10.1126/sciadv.aaw2541

Cite This Page:

Aalto University. "Combination of wood fibers and spider silk could rival plastic." ScienceDaily. ScienceDaily, 16 September 2019. <www.sciencedaily.com/releases/2019/09/190916101845.htm>.
Aalto University. (2019, September 16). Combination of wood fibers and spider silk could rival plastic. ScienceDaily. Retrieved December 22, 2024 from www.sciencedaily.com/releases/2019/09/190916101845.htm
Aalto University. "Combination of wood fibers and spider silk could rival plastic." ScienceDaily. www.sciencedaily.com/releases/2019/09/190916101845.htm (accessed December 22, 2024).

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