Bioinspired Processing of Keratin into Upcycled Fibers through pH-Induced Coacervation

Jianwu Sun; Guillermo Monreal Santiago; Feng Yan; Wen Zhou; Petra Rudolf; Giuseppe Portale; Marleen Kamperman

doi:10.1021/acssuschemeng.2c06865

Bioinspired Processing of Keratin into Upcycled Fibers through pH-Induced Coacervation

Jianwu Sun, Guillermo Monreal Santiago^*, Feng Yan, Wen Zhou, Petra Rudolf, Giuseppe Portale, Marleen Kamperman^*

^*Bijbehorende auteur voor dit werk

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Keratin is an important byproduct of the animal industry, but almost all of it ends up in landfills due to a lack of efficient recycling methods. To make better use of keratin-based natural resources, the current extraction and processing strategies need to be improved or replaced by more sustainable and cost-effective processes. Here, we developed a simple and environmentally benign method to process extracted keratin, using HCl to induce the formation of a coacervate, a separate aqueous phase with a very high protein concentration. Remarkably, this pH-induced coacervation did not result in the denaturation of keratin, and we could even observe an increase in the amount of ordered secondary structures. The low-pH coacervates could be extruded and wet-spun into high-performance keratin fibers, without requiring heating or any organic solvents. The secondary structure of keratin was largely conserved in these regenerated fibers, which exhibited excellent mechanical performance. The process developed in this study represents a simple and environmentally friendly strategy to upcycle waste keratin into high-performance materials.

Originele taal-2	English
Pagina's (van-tot)	1985-1994
Aantal pagina's	10
Tijdschrift	ACS Sustainable Chemistry and Engineering
Volume	11
Nummer van het tijdschrift	5
DOI's	https://doi.org/10.1021/acssuschemeng.2c06865
Status	Published - 6-feb.-2023

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title = "Bioinspired Processing of Keratin into Upcycled Fibers through pH-Induced Coacervation",

abstract = "Keratin is an important byproduct of the animal industry, but almost all of it ends up in landfills due to a lack of efficient recycling methods. To make better use of keratin-based natural resources, the current extraction and processing strategies need to be improved or replaced by more sustainable and cost-effective processes. Here, we developed a simple and environmentally benign method to process extracted keratin, using HCl to induce the formation of a coacervate, a separate aqueous phase with a very high protein concentration. Remarkably, this pH-induced coacervation did not result in the denaturation of keratin, and we could even observe an increase in the amount of ordered secondary structures. The low-pH coacervates could be extruded and wet-spun into high-performance keratin fibers, without requiring heating or any organic solvents. The secondary structure of keratin was largely conserved in these regenerated fibers, which exhibited excellent mechanical performance. The process developed in this study represents a simple and environmentally friendly strategy to upcycle waste keratin into high-performance materials.",

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author = "Jianwu Sun and {Monreal Santiago}, Guillermo and Feng Yan and Wen Zhou and Petra Rudolf and Giuseppe Portale and Marleen Kamperman",

note = "Funding Information: The authors thank Jur van Dijken from Zernike Institute for Advanced Materials for assistance with TGA, DSC, tensile test, and rheology test. They also thank Federico di Sacco from Zernike Institute for Advanced Materials for helping to analyze the WAXS data. This work received support from the Advanced Materials research program of the Zernike Institute for Advanced Materials under the Bonus Incentive Scheme (BIS) of the Netherlands Ministry of Education, Science, and Culture. Funding Information: J.S. is grateful to the China Scholarship Council (CSC) for providing financial support. The authors acknowledge the European Research Council (ERC) for the financial support under the European Union{\textquoteright}s Horizon 2020 research and innovation program under the Consolidator grant agreement no. 864982. Publisher Copyright: {\textcopyright} 2023 The Authors. Published by American Chemical Society.",

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AU - Sun, Jianwu

AU - Monreal Santiago, Guillermo

AU - Yan, Feng

AU - Zhou, Wen

AU - Rudolf, Petra

AU - Portale, Giuseppe

AU - Kamperman, Marleen

N1 - Funding Information: The authors thank Jur van Dijken from Zernike Institute for Advanced Materials for assistance with TGA, DSC, tensile test, and rheology test. They also thank Federico di Sacco from Zernike Institute for Advanced Materials for helping to analyze the WAXS data. This work received support from the Advanced Materials research program of the Zernike Institute for Advanced Materials under the Bonus Incentive Scheme (BIS) of the Netherlands Ministry of Education, Science, and Culture. Funding Information: J.S. is grateful to the China Scholarship Council (CSC) for providing financial support. The authors acknowledge the European Research Council (ERC) for the financial support under the European Union’s Horizon 2020 research and innovation program under the Consolidator grant agreement no. 864982. Publisher Copyright: © 2023 The Authors. Published by American Chemical Society.

PY - 2023/2/6

Y1 - 2023/2/6

N2 - Keratin is an important byproduct of the animal industry, but almost all of it ends up in landfills due to a lack of efficient recycling methods. To make better use of keratin-based natural resources, the current extraction and processing strategies need to be improved or replaced by more sustainable and cost-effective processes. Here, we developed a simple and environmentally benign method to process extracted keratin, using HCl to induce the formation of a coacervate, a separate aqueous phase with a very high protein concentration. Remarkably, this pH-induced coacervation did not result in the denaturation of keratin, and we could even observe an increase in the amount of ordered secondary structures. The low-pH coacervates could be extruded and wet-spun into high-performance keratin fibers, without requiring heating or any organic solvents. The secondary structure of keratin was largely conserved in these regenerated fibers, which exhibited excellent mechanical performance. The process developed in this study represents a simple and environmentally friendly strategy to upcycle waste keratin into high-performance materials.

AB - Keratin is an important byproduct of the animal industry, but almost all of it ends up in landfills due to a lack of efficient recycling methods. To make better use of keratin-based natural resources, the current extraction and processing strategies need to be improved or replaced by more sustainable and cost-effective processes. Here, we developed a simple and environmentally benign method to process extracted keratin, using HCl to induce the formation of a coacervate, a separate aqueous phase with a very high protein concentration. Remarkably, this pH-induced coacervation did not result in the denaturation of keratin, and we could even observe an increase in the amount of ordered secondary structures. The low-pH coacervates could be extruded and wet-spun into high-performance keratin fibers, without requiring heating or any organic solvents. The secondary structure of keratin was largely conserved in these regenerated fibers, which exhibited excellent mechanical performance. The process developed in this study represents a simple and environmentally friendly strategy to upcycle waste keratin into high-performance materials.

KW - coacervate

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KW - keratin

KW - processing

KW - regenerated

KW - upcycling

KW - wet spinning

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