Biobased Materials: Recent Developments and Industrial Applications
Editat de Ajay Kumar Mishra, Chaudhery Mustansar Hussainen Limba Engleză Hardback – 20 oct 2022
Major challenges of biobased materials are their efficient development, cost-effective, and green & environment friendly production/applications. This encyclopedia answers these challenges to professionals and scientists for proper utilization of biobased materials. It presents the recent practices of biobased materials technology in different scientific and engineering domains. It helps the bounded industrial outcomes to reach thegeneral readership of different domains. This encyclopedia bridges the technological gaps between the industrial and academic professionals and the novice young students/scholars. The interdisciplinarity of this encyclopedia makes it unique for a wide readership.
The topic of biobased materials is currently popular in the scientific community, working in such following areas as Recycled materials, Renewable materials, Materials for efficiency, Materials for waste treatment, Materials for reduction of environmental load, Materials for easy disposal or recycle, Hazardous free materials, Materials for reducing human health impact, Materials for energy efficiency, Materials for green energy, etc. This is a relatively hot topic in materials science and has strong demands for energy, material and money savings, as well as heavy contamination problems, despite that the area of biobased materials belongs to most important fields of modern science & technology, no important encyclopedias have been published in the area of “biobased materials”
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Specificații
ISBN-13: 9789811960239
ISBN-10: 9811960232
Pagini: 306
Ilustrații: X, 306 p. 84 illus., 68 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.62 kg
Ediția:1st ed. 2023
Editura: Springer Nature Singapore
Colecția Springer
Locul publicării:Singapore, Singapore
ISBN-10: 9811960232
Pagini: 306
Ilustrații: X, 306 p. 84 illus., 68 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 0.62 kg
Ediția:1st ed. 2023
Editura: Springer Nature Singapore
Colecția Springer
Locul publicării:Singapore, Singapore
Cuprins
Part 1: Introduction- Biobased materials (Concepts, Fundamentals etc.)
Biobased materials: An Overview
Fabrication and processing of biobased materials Characterization of biobased materials
Cellulose fibers Casein
Polylactic acid Bioplastics
Engineered wood
Zein cornstarch Grease
Biomass
Part 2: Industrial applications of Biobased materials (Each industry may have 8-10 chapters)
Biobased materials in Food Packaging
Biobased materials in increasing shelf life of food
Biobased materials in dentistry Biobased materials in wound dressings
Biobased materials in bone tissue repair
Biobased materials in tissue engineering
Biobased materials in agriculture
Biobased materials in construction applications Biobased materials in textile applications
Biobased materials in wearable e-textiles Biobased materials in electronic shielding
Biobased materials in environmental protection Biobased materials in removing heavy metals from water
Biobased materials in organic dyes from water Biobased materials in wastewater treatment
Biobased materials in sustainable development of catalysis Biobased materials in bioelectronics
Biobased materials in sensor technology
Biobased materials: An Overview
Fabrication and processing of biobased materials Characterization of biobased materials
Cellulose fibers Casein
Polylactic acid Bioplastics
Engineered wood
Zein cornstarch Grease
Biomass
Part 2: Industrial applications of Biobased materials (Each industry may have 8-10 chapters)
Biobased materials in Food Packaging
Biobased materials in increasing shelf life of food
Biobased materials in dentistry Biobased materials in wound dressings
Biobased materials in bone tissue repair
Biobased materials in tissue engineering
Biobased materials in agriculture
Biobased materials in construction applications Biobased materials in textile applications
Biobased materials in wearable e-textiles Biobased materials in electronic shielding
Biobased materials in environmental protection Biobased materials in removing heavy metals from water
Biobased materials in organic dyes from water Biobased materials in wastewater treatment
Biobased materials in sustainable development of catalysis Biobased materials in bioelectronics
Biobased materials in sensor technology
Notă biografică
Ajay Kumar Mishra (MSc, MPhil, PhD, FRSC) is Professor at the Department of Chemistry, Durban University of Technology, Durban, South Africa, Professor at Department of Chemistry KIIT University, Bhubaneswar, India and Director at Nanotechnology and Waste Water Innovations, Johannesburg, South Africa. He also holds an adjunct and visiting professorship at Bashkir State University, Russia, Robert Gordon University, UK, Hebei University of Science and Technology & Jiangsu University, China. His research interests include the synthesis of multifunctional nanomaterials, biobased materials including polymers, carbon nanomaterials, composite/nanocomposite materials and wastewater research. Prof Mishra has published around 160 papers in peer-reviewed international journals and also represented in 150 or more papers in various conferences. He has edited more than 32 books and contributed over 65 book chapters in various peer reviewed edited books by established publishers
Chaudhery Mustansar Hussain, PhD is an Adjunct Professor and Director of Labs in the Department of Chemistry & Environmental Sciences at the New Jersey Institute of Technology (NJIT), Newark, New Jersey, USA. His research is focused on the applications of Nanotechnology & Advanced Technologies & advanced Materials, Chemistry, Environment, and Various Industries. Dr. Hussain is the author of numerous papers in peer-reviewed journals as well as prolific author and editor of several (around 50 books) scientific monographs and Encyclopedia s in his research areas published with Elsevier, Royal Society of Chemistry, John Wiley & sons, CRC, Springer etc.
Textul de pe ultima copertă
This book discusses the extraction, purification, modification, and processing of biobased materials and their various industrial applications, across biomedical, pharmaceutical, construction, and other industries. It includes contributions from experts on hybrid biopolymers and bio-composites, bioactive and biodegradable materials, bio-inert polymers, natural polymers and composites, and metallic natural materials. Therefore, this encyclopedia is a useful reference for scientists, academicians, research scholars, and technologists.
Major challenges of biobased materials are their efficient development, cost-effective, and green & environment friendly production/applications. This encyclopedia answers these challenges to professionals and scientists for proper utilization of biobased materials. It presents the recent practices of biobased materials technology in different scientific and engineering domains. It helps the bounded industrial outcomes to reach the general readership of different domains. This encyclopedia bridges the technological gaps between the industrial and academic professionals and the novice young students/scholars. The interdisciplinarity of this encyclopedia makes it unique for a wide readership.
The topic of biobased materials is currently popular in the scientific community, working in such following areas as Recycled materials, Renewable materials, Materials for efficiency, Materials for waste treatment, Materials for reduction of environmental load, Materials for easy disposal or recycle, Hazardous free materials, Materials for reducing human health impact, Materials for energy efficiency, Materials for green energy, etc. This is a relatively hot topic in materials science and has strong demands for energy, material and money savings, as well as heavy contamination problems, despite that the area of biobased materials belongs to most important fields of modern science & technology, no important encyclopediashave been published in the area of “biobased materials”
Major challenges of biobased materials are their efficient development, cost-effective, and green & environment friendly production/applications. This encyclopedia answers these challenges to professionals and scientists for proper utilization of biobased materials. It presents the recent practices of biobased materials technology in different scientific and engineering domains. It helps the bounded industrial outcomes to reach the general readership of different domains. This encyclopedia bridges the technological gaps between the industrial and academic professionals and the novice young students/scholars. The interdisciplinarity of this encyclopedia makes it unique for a wide readership.
The topic of biobased materials is currently popular in the scientific community, working in such following areas as Recycled materials, Renewable materials, Materials for efficiency, Materials for waste treatment, Materials for reduction of environmental load, Materials for easy disposal or recycle, Hazardous free materials, Materials for reducing human health impact, Materials for energy efficiency, Materials for green energy, etc. This is a relatively hot topic in materials science and has strong demands for energy, material and money savings, as well as heavy contamination problems, despite that the area of biobased materials belongs to most important fields of modern science & technology, no important encyclopediashave been published in the area of “biobased materials”
Caracteristici
Highlights the extraction, purification, modification, and processing its applications Shows the challenges of bio-based materials cost effective and green & environment-friendly production/applications Presents recent practices of bio-based materials technology in different domains