Advanced and versatile lignin-derived biodegradable composite film materials toward a sustainable world

The excessive use of petroleum-based non-biodegradable plastic products has resulted in severe environmental pollution and ecological problems, which has stimulated the development of biodegradable and renewable alternative materials. Lignin, as the most abundant aromatic polymer with great biodegra...

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Published inGreen chemistry : an international journal and green chemistry resource : GC Vol. 23; no. 11; pp. 379 - 3817
Main Authors Wang, Han-Min, Yuan, Tong-Qi, Song, Guo-Yong, Sun, Run-Cang
Format Journal Article
LanguageEnglish
Published Cambridge Royal Society of Chemistry 09.06.2021
Subjects
Biocompatibility
Biodegradability
Biodegradation
Biomedical materials
Bioplastics
composite films
Composite materials
composite polymers
Construction
Copolymers
Ecological effects
energy
Energy storage
Green chemistry
Lignin
Lignocellulose
Macromolecules
petroleum
pollution
Polymers
Storage systems
Sustainability
Sustainable development
Sustainable materials
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Abstract The excessive use of petroleum-based non-biodegradable plastic products has resulted in severe environmental pollution and ecological problems, which has stimulated the development of biodegradable and renewable alternative materials. Lignin, as the most abundant aromatic polymer with great biodegradability and biocompatibility, exhibits enormous potential for preparing various functional and sustainable materials as alternatives to plastics. Recently, lignin-derived biodegradable films have received extensive attention in both fundamental research and practical applications, and many significant achievements have been made in this field. Herein, the latest progress in the preparation and advanced applications of lignin-derived biodegradable film materials is summarized from a sustainability point of view. An introduction to the structural and chemical characteristics of lignin is presented first, and then the designs and advances of construction systems are reviewed based on the building matrixes, including lignocellulose, natural macromolecules, biodegradable synthetic copolymers, and other cutting-edge materials. In this review, the tailored applications of these film materials are mainly focused on sensors and responsive materials, energy storage systems, packaging, and biomedical materials. Finally, the main challenges of lignin-derived biodegradable film materials are presented, and potential development directions for sustainable and eco-friendly lignin-derived film materials are also proposed. This review summarizes the recent advances in fabrication strategies and versatile applications of lignin-derived biodegradable film materials from the viewpoint of sustainable development.
AbstractList The excessive use of petroleum-based non-biodegradable plastic products has resulted in severe environmental pollution and ecological problems, which has stimulated the development of biodegradable and renewable alternative materials. Lignin, as the most abundant aromatic polymer with great biodegradability and biocompatibility, exhibits enormous potential for preparing various functional and sustainable materials as alternatives to plastics. Recently, lignin-derived biodegradable films have received extensive attention in both fundamental research and practical applications, and many significant achievements have been made in this field. Herein, the latest progress in the preparation and advanced applications of lignin-derived biodegradable film materials is summarized from a sustainability point of view. An introduction to the structural and chemical characteristics of lignin is presented first, and then the designs and advances of construction systems are reviewed based on the building matrixes, including lignocellulose, natural macromolecules, biodegradable synthetic copolymers, and other cutting-edge materials. In this review, the tailored applications of these film materials are mainly focused on sensors and responsive materials, energy storage systems, packaging, and biomedical materials. Finally, the main challenges of lignin-derived biodegradable film materials are presented, and potential development directions for sustainable and eco-friendly lignin-derived film materials are also proposed.
The excessive use of petroleum-based non-biodegradable plastic products has resulted in severe environmental pollution and ecological problems, which has stimulated the development of biodegradable and renewable alternative materials. Lignin, as the most abundant aromatic polymer with great biodegradability and biocompatibility, exhibits enormous potential for preparing various functional and sustainable materials as alternatives to plastics. Recently, lignin-derived biodegradable films have received extensive attention in both fundamental research and practical applications, and many significant achievements have been made in this field. Herein, the latest progress in the preparation and advanced applications of lignin-derived biodegradable film materials is summarized from a sustainability point of view. An introduction to the structural and chemical characteristics of lignin is presented first, and then the designs and advances of construction systems are reviewed based on the building matrixes, including lignocellulose, natural macromolecules, biodegradable synthetic copolymers, and other cutting-edge materials. In this review, the tailored applications of these film materials are mainly focused on sensors and responsive materials, energy storage systems, packaging, and biomedical materials. Finally, the main challenges of lignin-derived biodegradable film materials are presented, and potential development directions for sustainable and eco-friendly lignin-derived film materials are also proposed. This review summarizes the recent advances in fabrication strategies and versatile applications of lignin-derived biodegradable film materials from the viewpoint of sustainable development.
Author Wang, Han-Min
Yuan, Tong-Qi
Song, Guo-Yong
Sun, Run-Cang
AuthorAffiliation Liaoning Key Laboratory of Lignocellulosic Chemistry and BioMaterials
Dalian Polytechnic University
Beijing Key Laboratory of Lignocellulosic Chemistry
Beijing Forestry University
AuthorAffiliation_xml – name: Liaoning Key Laboratory of Lignocellulosic Chemistry and BioMaterials
– name: Dalian Polytechnic University
– name: Beijing Forestry University
– name: Beijing Key Laboratory of Lignocellulosic Chemistry
Author_xml – sequence: 1
  givenname: Han-Min
  surname: Wang
  fullname: Wang, Han-Min
– sequence: 2
  givenname: Tong-Qi
  surname: Yuan
  fullname: Yuan, Tong-Qi
– sequence: 3
  givenname: Guo-Yong
  surname: Song
  fullname: Song, Guo-Yong
– sequence: 4
  givenname: Run-Cang
  surname: Sun
  fullname: Sun, Run-Cang
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Snippet The excessive use of petroleum-based non-biodegradable plastic products has resulted in severe environmental pollution and ecological problems, which has...
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SubjectTerms Biocompatibility
Biodegradability
Biodegradation
Biomedical materials
Bioplastics
composite films
Composite materials
composite polymers
Construction
Copolymers
Ecological effects
energy
Energy storage
Green chemistry
Lignin
Lignocellulose
Macromolecules
petroleum
pollution
Polymers
Storage systems
Sustainability
Sustainable development
Sustainable materials
Title Advanced and versatile lignin-derived biodegradable composite film materials toward a sustainable world
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