Bioresourced fillers for rubber composite sustainability: current development and future opportunities

Ending the fossil fuel era towards a sustainable future will require high-performing renewable materials with a low environmental impact. Carbon black, produced by partial combustion or thermal decomposition of petroleum hydrocarbons, is by far the most dominant filler of rubber composites, followed...

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Published in	Green chemistry : an international journal and green chemistry resource : GC Vol. 23; no. 15; pp. 5337 - 5378
Main Authors	Chang, Boon Peng, Gupta, Arvind, Muthuraj, Rajendran, Mekonnen, Tizazu H
Format	Journal Article
Language	English
Published	Cambridge Royal Society of Chemistry 02.08.2021
Subjects	biochar biocomposites Biomedical materials Black carbon Calcium carbonate Carbon Carbon black Carbon footprint Cellulose Charcoal Chemical properties clay Clay minerals combustion Composite materials Environmental impact Fillers Footprint analysis Fossil fuels Green chemistry lignin manufacturing Morphology Nanocrystals petroleum Petroleum hydrocarbons Physicochemical properties Plants Polysaccharides Renewable resources Rubber Saccharides Silica Silicon dioxide soot Sustainability Sustainable development Sustainable materials talc Thermal decomposition thermal degradation
Online Access	Get full text
ISSN	1463-9262 1463-9270 1463-9270
DOI	10.1039/d1gc01115d

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Abstract	Ending the fossil fuel era towards a sustainable future will require high-performing renewable materials with a low environmental impact. Carbon black, produced by partial combustion or thermal decomposition of petroleum hydrocarbons, is by far the most dominant filler of rubber composites, followed by mineral fillers ( e.g. silica, talc, clay, calcium carbonate, etc .). However, the manufacture of carbon black has a considerable carbon footprint. Similarly, mineral fillers also do not come without challenges, including poor compatibility with rubber matrices and high density. Consequently, the need for sustainable and green fillers with a low or even zero carbon footprint has dramatically increased. In recent years, plant-derived sustainable materials, such as cellulose nanocrystals, natural fibers, lignin, biochar, polysaccharides, etc ., have been extensively investigated as substitute or complementary fillers of rubbers. In this work, we critically reviewed recent developments in the innovation and utilization of sustainable biofillers for rubber composite applications, emphasizing the effect of the filler on the structure-processing-property relationships in rubber composites. A wide range of biofillers with an array of structure, morphology, and physico-chemical properties and their various attributes in different rubbers are intensively reviewed and discussed. Effective preparation strategies and surface modification platforms on the different biofillers to develop high-performance sustainable rubber biocomposites were critically reviewed. Finally, future perspectives for biofillers in rubber composite applications and challenges are discussed. This article reviewed the recent progress in the development and utilization of sustainable biofillers for rubber composite applications, emphasizing the effect of the filler on the structure-processing-property relationship of rubber composites.
AbstractList	Ending the fossil fuel era towards a sustainable future will require high-performing renewable materials with a low environmental impact. Carbon black, produced by partial combustion or thermal decomposition of petroleum hydrocarbons, is by far the most dominant filler of rubber composites, followed by mineral fillers ( e.g. silica, talc, clay, calcium carbonate, etc .). However, the manufacture of carbon black has a considerable carbon footprint. Similarly, mineral fillers also do not come without challenges, including poor compatibility with rubber matrices and high density. Consequently, the need for sustainable and green fillers with a low or even zero carbon footprint has dramatically increased. In recent years, plant-derived sustainable materials, such as cellulose nanocrystals, natural fibers, lignin, biochar, polysaccharides, etc ., have been extensively investigated as substitute or complementary fillers of rubbers. In this work, we critically reviewed recent developments in the innovation and utilization of sustainable biofillers for rubber composite applications, emphasizing the effect of the filler on the structure-processing-property relationships in rubber composites. A wide range of biofillers with an array of structure, morphology, and physico-chemical properties and their various attributes in different rubbers are intensively reviewed and discussed. Effective preparation strategies and surface modification platforms on the different biofillers to develop high-performance sustainable rubber biocomposites were critically reviewed. Finally, future perspectives for biofillers in rubber composite applications and challenges are discussed. This article reviewed the recent progress in the development and utilization of sustainable biofillers for rubber composite applications, emphasizing the effect of the filler on the structure-processing-property relationship of rubber composites. Ending the fossil fuel era towards a sustainable future will require high-performing renewable materials with a low environmental impact. Carbon black, produced by partial combustion or thermal decomposition of petroleum hydrocarbons, is by far the most dominant filler of rubber composites, followed by mineral fillers (e.g. silica, talc, clay, calcium carbonate, etc.). However, the manufacture of carbon black has a considerable carbon footprint. Similarly, mineral fillers also do not come without challenges, including poor compatibility with rubber matrices and high density. Consequently, the need for sustainable and green fillers with a low or even zero carbon footprint has dramatically increased. In recent years, plant-derived sustainable materials, such as cellulose nanocrystals, natural fibers, lignin, biochar, polysaccharides, etc., have been extensively investigated as substitute or complementary fillers of rubbers. In this work, we critically reviewed recent developments in the innovation and utilization of sustainable biofillers for rubber composite applications, emphasizing the effect of the filler on the structure–processing–property relationships in rubber composites. A wide range of biofillers with an array of structure, morphology, and physico-chemical properties and their various attributes in different rubbers are intensively reviewed and discussed. Effective preparation strategies and surface modification platforms on the different biofillers to develop high-performance sustainable rubber biocomposites were critically reviewed. Finally, future perspectives for biofillers in rubber composite applications and challenges are discussed. Ending the fossil fuel era towards a sustainable future will require high-performing renewable materials with a low environmental impact. Carbon black, produced by partial combustion or thermal decomposition of petroleum hydrocarbons, is by far the most dominant filler of rubber composites, followed by mineral fillers ( e.g. silica, talc, clay, calcium carbonate, etc .). However, the manufacture of carbon black has a considerable carbon footprint. Similarly, mineral fillers also do not come without challenges, including poor compatibility with rubber matrices and high density. Consequently, the need for sustainable and green fillers with a low or even zero carbon footprint has dramatically increased. In recent years, plant-derived sustainable materials, such as cellulose nanocrystals, natural fibers, lignin, biochar, polysaccharides, etc ., have been extensively investigated as substitute or complementary fillers of rubbers. In this work, we critically reviewed recent developments in the innovation and utilization of sustainable biofillers for rubber composite applications, emphasizing the effect of the filler on the structure–processing–property relationships in rubber composites. A wide range of biofillers with an array of structure, morphology, and physico-chemical properties and their various attributes in different rubbers are intensively reviewed and discussed. Effective preparation strategies and surface modification platforms on the different biofillers to develop high-performance sustainable rubber biocomposites were critically reviewed. Finally, future perspectives for biofillers in rubber composite applications and challenges are discussed.
Author	Muthuraj, Rajendran Mekonnen, Tizazu H Gupta, Arvind Chang, Boon Peng
AuthorAffiliation	Department of Chemical Engineering Waterloo Institute for Nanotechnology University of Waterloo Worn Again Technologies Ltd Institute of Polymer Research
AuthorAffiliation_xml	– name: Department of Chemical Engineering – name: Worn Again Technologies Ltd – name: Institute of Polymer Research – name: Waterloo Institute for Nanotechnology – name: University of Waterloo
Author_xml	– sequence: 1 givenname: Boon Peng surname: Chang fullname: Chang, Boon Peng – sequence: 2 givenname: Arvind surname: Gupta fullname: Gupta, Arvind – sequence: 3 givenname: Rajendran surname: Muthuraj fullname: Muthuraj, Rajendran – sequence: 4 givenname: Tizazu H surname: Mekonnen fullname: Mekonnen, Tizazu H
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Notes	Dr. Rajendran Muthuraj is currently a Polymer Scientist with Worn Again Technologies Ltd, UK. From 2015-2018, he was a post-doctoral researcher at the University of Bolton, UK, IMT Mines Ales, France, and the University of South Brittany, France. He received his Ph.D. in polymer engineering from the University of Guelph, Canada in 2015. His research interests focus on sustainable polymeric material development for various applications including packaging. He has published several peer-reviewed journal articles and book chapters. He has also received the Innovation of the Year Award from the University of Guelph, Canada for innovating a high-performance and 100% compostable bio-composite. Dr. Tizazu H. Mekonnen is an Assistant Professor of Chemical Engineering at the University of Waterloo. Prior to his faculty position, he worked as a Polymer Engineering and Nanomaterial Scientist at E.I. DuPont. In his current role, he runs a Sustainable Polymers lab and trains graduate students and postdoctoral fellows in the next-generation sustainable polymer systems. His group actively researches on renewable polymer design, sustainable nanomaterials, polymer modifications, and processing-structure-property correlations of polymers for material applications (thin films, coatings, rubber products, engineering composites, and adhesives). He has also developed a strong collaboration with the polymer, rubber/elastomer, composites, agroforestry, and confectionery and food industries. Dr. Arvind Gupta received his Ph.D. from IIT-Guwahati, India (2018). He is currently a Postdoctoral Fellow at the University of Waterloo, Canada. His research focuses on the development of new formulations based on conventional plastics and renewable bioplastics and biobased polymers for commercial applications. Preparation of Shape memory polyurethane, polymer synthesis, and Dr. Boon Peng Chang received his Ph.D. from the University of Science Malaysia (2014) under the supervision of Prof. Hazizan Md Akil. He has worked as a postdoctoral fellow in the Bioproducts Discovery and Development Centre, University of Guelph, Canada, under the supervision of Prof. Amar Mohanty and Prof. Manjusri Misra. He is currently a research associate in the Department of Chemical Engineering, University of Waterloo, Canada, under the supervision of Prof. Tizazu Mekonnen. His main research focuses on the production and characterization of environmentally friendly polymer blends and biocomposites from renewable resources; and thermochemical conversion of agro-wastes into value-added products. in situ polymerization are key areas of his research work. To date, he has published 20 research papers on his research topics in peer-reviewed international journals. Also, he has filed 4 patents (2 granted) and written several book chapters to his credit. ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23
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Snippet	Ending the fossil fuel era towards a sustainable future will require high-performing renewable materials with a low environmental impact. Carbon black,...
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SubjectTerms	biochar biocomposites Biomedical materials Black carbon Calcium carbonate Carbon Carbon black Carbon footprint Cellulose Charcoal Chemical properties clay Clay minerals combustion Composite materials Environmental impact Fillers Footprint analysis Fossil fuels Green chemistry lignin manufacturing Morphology Nanocrystals petroleum Petroleum hydrocarbons Physicochemical properties Plants Polysaccharides Renewable resources Rubber Saccharides Silica Silicon dioxide soot Sustainability Sustainable development Sustainable materials talc Thermal decomposition thermal degradation
Title	Bioresourced fillers for rubber composite sustainability: current development and future opportunities
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