Lignin beyond the status quo : recent and emerging composite applications
The demand for biodegradable materials across various industries has recently surged due to environmental concerns and the need for the adoption of renewable materials. In this context, lignin has emerged as a promising alternative, garnering significant attention as a biogenic resource that endows...
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| Vydáno v: | Green chemistry : an international journal and green chemistry resource : GC Ročník 26; číslo 2; s. 593 |
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| Hlavní autoři: | , , , , , , , |
| Médium: | Journal Article |
| Jazyk: | angličtina |
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England
22.01.2024
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| ISSN: | 1463-9262 |
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| Abstract | The demand for biodegradable materials across various industries has recently surged due to environmental concerns and the need for the adoption of renewable materials. In this context, lignin has emerged as a promising alternative, garnering significant attention as a biogenic resource that endows functional properties. This is primarily ascribed to its remarkable origin and structure that explains lignin's capacity to bind other molecules, reinforce composites, act as an antioxidant, and endow antimicrobial effects. This review summarizes recent advances in lignin-based composites, with particular emphasis on innovative methods for modifying lignin into micro and nanostructures and evaluating their functional contribution. Indeed, lignin-based composites can be tailored to have superior physicomechanical characteristics, biodegradability, and surface properties, thereby making them suitable for applications beyond the typical, for instance, in ecofriendly adhesives and advanced barrier technologies. Herein, we provide a comprehensive overview of the latest progress in the field of lignin utilization in emerging composite materials. |
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| AbstractList | The demand for biodegradable materials across various industries has recently surged due to environmental concerns and the need for the adoption of renewable materials. In this context, lignin has emerged as a promising alternative, garnering significant attention as a biogenic resource that endows functional properties. This is primarily ascribed to its remarkable origin and structure that explains lignin's capacity to bind other molecules, reinforce composites, act as an antioxidant, and endow antimicrobial effects. This review summarizes recent advances in lignin-based composites, with particular emphasis on innovative methods for modifying lignin into micro and nanostructures and evaluating their functional contribution. Indeed, lignin-based composites can be tailored to have superior physicomechanical characteristics, biodegradability, and surface properties, thereby making them suitable for applications beyond the typical, for instance, in ecofriendly adhesives and advanced barrier technologies. Herein, we provide a comprehensive overview of the latest progress in the field of lignin utilization in emerging composite materials.The demand for biodegradable materials across various industries has recently surged due to environmental concerns and the need for the adoption of renewable materials. In this context, lignin has emerged as a promising alternative, garnering significant attention as a biogenic resource that endows functional properties. This is primarily ascribed to its remarkable origin and structure that explains lignin's capacity to bind other molecules, reinforce composites, act as an antioxidant, and endow antimicrobial effects. This review summarizes recent advances in lignin-based composites, with particular emphasis on innovative methods for modifying lignin into micro and nanostructures and evaluating their functional contribution. Indeed, lignin-based composites can be tailored to have superior physicomechanical characteristics, biodegradability, and surface properties, thereby making them suitable for applications beyond the typical, for instance, in ecofriendly adhesives and advanced barrier technologies. Herein, we provide a comprehensive overview of the latest progress in the field of lignin utilization in emerging composite materials. The demand for biodegradable materials across various industries has recently surged due to environmental concerns and the need for the adoption of renewable materials. In this context, lignin has emerged as a promising alternative, garnering significant attention as a biogenic resource that endows functional properties. This is primarily ascribed to its remarkable origin and structure that explains lignin's capacity to bind other molecules, reinforce composites, act as an antioxidant, and endow antimicrobial effects. This review summarizes recent advances in lignin-based composites, with particular emphasis on innovative methods for modifying lignin into micro and nanostructures and evaluating their functional contribution. Indeed, lignin-based composites can be tailored to have superior physicomechanical characteristics, biodegradability, and surface properties, thereby making them suitable for applications beyond the typical, for instance, in ecofriendly adhesives and advanced barrier technologies. Herein, we provide a comprehensive overview of the latest progress in the field of lignin utilization in emerging composite materials. |
| Author | Mukherjee, Sritama Rojas, Orlando J Seppälä, Jukka Lipponen, Juha Baniasadi, Hossein Abidnejad, Roozbeh Mujtaba, Muhammad Fazeli, Mahyar |
| Author_xml | – sequence: 1 givenname: Mahyar orcidid: 0000-0002-9791-8728 surname: Fazeli fullname: Fazeli, Mahyar email: mahyar.fazeli@aalto.fi organization: Department of Bioproducts and Biosystems, School of Chemical Engineering, Aalto University FI-00076 Aalto Finland mahyar.fazeli@aalto.fi – sequence: 2 givenname: Sritama orcidid: 0000-0002-3204-3043 surname: Mukherjee fullname: Mukherjee, Sritama email: mahyar.fazeli@aalto.fi organization: Division of Fiber and Polymer Technology, CBH, KTH Royal Institute of Technology Teknikringen 56-58 SE-100 44 Stockholm Sweden – sequence: 3 givenname: Hossein orcidid: 0000-0002-0463-337X surname: Baniasadi fullname: Baniasadi, Hossein organization: Polymer Technology, School of Chemical Engineering, Aalto University Espoo Finland – sequence: 4 givenname: Roozbeh orcidid: 0000-0002-1101-5852 surname: Abidnejad fullname: Abidnejad, Roozbeh email: mahyar.fazeli@aalto.fi organization: Department of Bioproducts and Biosystems, School of Chemical Engineering, Aalto University FI-00076 Aalto Finland mahyar.fazeli@aalto.fi – sequence: 5 givenname: Muhammad orcidid: 0000-0001-8392-9226 surname: Mujtaba fullname: Mujtaba, Muhammad organization: VTT Technical Research Centre of Finland Ltd P.O. Box 1000 Espoo FI-02044 Finland – sequence: 6 givenname: Juha surname: Lipponen fullname: Lipponen, Juha email: mahyar.fazeli@aalto.fi organization: Department of Bioproducts and Biosystems, School of Chemical Engineering, Aalto University FI-00076 Aalto Finland mahyar.fazeli@aalto.fi – sequence: 7 givenname: Jukka orcidid: 0009-0005-7617-3199 surname: Seppälä fullname: Seppälä, Jukka organization: Polymer Technology, School of Chemical Engineering, Aalto University Espoo Finland – sequence: 8 givenname: Orlando J orcidid: 0000-0003-4036-4020 surname: Rojas fullname: Rojas, Orlando J email: mahyar.fazeli@aalto.fi, orlando.rojas@ubc.ca organization: Bioproducts Institute, Department of Chemical & Biological Engineering, Department of Chemistry, Department of Wood Science, 2360 East Mall, The University of British Columbia Vancouver BC V6T 1Z3 Canada orlando.rojas@ubc.ca |
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