Biodegradable Polymers to Biomedical and Packaging Applications
This reprint compiles cutting-edge research on biodegradable polymers, with a focus on their applications in the biomedical and packaging industries. As global demand for sustainable materials grows, biodegradable polymers provide promising solutions that reduce environmental impact while meeting th...
में बचाया:
| स्वरूप: | Online |
|---|---|
| भाषा: | अंग्रेज़ी |
| प्रकाशित: |
MDPI - Multidisciplinary Digital Publishing Institute
2025
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| विषय: | |
| ऑनलाइन पहुंच: | ONIX_20250220_9783725824649_287 |
| टैग: |
कोई टैग नहीं, इस रिकॉर्ड को टैग करने वाले पहले व्यक्ति बनें!
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| _version_ | 1869519287732928512 |
|---|---|
| collection | Directory of Open Access Books |
| description | This reprint compiles cutting-edge research on biodegradable polymers, with a focus on their applications in the biomedical and packaging industries. As global demand for sustainable materials grows, biodegradable polymers provide promising solutions that reduce environmental impact while meeting the rigorous standards of modern industries. The collection highlights advancements in polymer synthesis, physicochemical characterization, and the development of two- and three-dimensional materials for practical use. These multidisciplinary studies combine insights from chemistry, materials science, biotechnology, and environmental science, showcasing innovations that address critical challenges. Designed for researchers, professionals, and students in biomaterials, polymers, and environmental sustainability, as well as for companies focused on increasing the biodegradable solutions in their products, this reprint offers valuable insights into the future of biodegradable materials. The research emphasizes the role of biodegradable polymers in key sectors such as healthcare and packaging, providing new approaches to improving material properties and expanding their range of applications. |
| format | Online |
| id | doab-20.500.12854ir-152923 |
| institution | Directory of Open Access Books |
| language | eng |
| publishDate | 2025 |
| publishDateRange | 2025 |
| publishDateSort | 2025 |
| publisher | MDPI - Multidisciplinary Digital Publishing Institute |
| publisherStr | MDPI - Multidisciplinary Digital Publishing Institute |
| record_format | ojs |
| spelling | doab-20.500.12854ir-1529232025-02-20T13:17:30Z Biodegradable Polymers to Biomedical and Packaging Applications Kaczmarek-Szczepańska, Beata Wekwejt, Marcin chitosan dialdehyde collagen bioengineering cutaneous cells scaffolds polylactic acid (PLA) 3D printing medical devices sterilisation physicochemical changes biological response zebrafish model poly(lactic acid) nanocrystalline cellulose methacrylation particles tissue engineering eco-friendly recycle plastic bottles polyethylene terephthalate (PET) hot mix asphalt (HMA) polymer-modified bitumen (PMB) fatigue life moisture susceptibility stability flow biodegradable packaging lignocellulose cellulose nanofibrils feedstock selection sustainability assessment waste management polylactic acid citric acid poly(1,3-propylene glycol) toughening agent algae biomaterial biopolymer bioplastic food packaging edible film red dragon fruit peel anthocyanins gambier catechins indicator film co-pigmentation banana ripeness active packaging chitosan quercetin layered clay polyvinyl alcohol polyvinyl alcohol films PVA/glycerol blends crystallinity infrared spectroscopy X-ray diffraction thermogravimetry differential thermal analysis atomic force microscopy lateral force microscopy ultrasonic force microscopy thema EDItEUR::K Economics, Finance, Business and Management::KJ Business and Management::KJC Business strategy thema EDItEUR::M Medicine and Nursing::MJ Clinical and internal medicine::MJC Diseases and disorders::MJCL Oncology This reprint compiles cutting-edge research on biodegradable polymers, with a focus on their applications in the biomedical and packaging industries. As global demand for sustainable materials grows, biodegradable polymers provide promising solutions that reduce environmental impact while meeting the rigorous standards of modern industries. The collection highlights advancements in polymer synthesis, physicochemical characterization, and the development of two- and three-dimensional materials for practical use. These multidisciplinary studies combine insights from chemistry, materials science, biotechnology, and environmental science, showcasing innovations that address critical challenges. Designed for researchers, professionals, and students in biomaterials, polymers, and environmental sustainability, as well as for companies focused on increasing the biodegradable solutions in their products, this reprint offers valuable insights into the future of biodegradable materials. The research emphasizes the role of biodegradable polymers in key sectors such as healthcare and packaging, providing new approaches to improving material properties and expanding their range of applications. 2025-02-20T13:17:28Z 2025-02-20T13:17:28Z 2024 book ONIX_20250220_9783725824649_287 9783725824649 9783725824632 https://directory.doabooks.org/handle/20.500.12854/152923 eng application/octet-stream Attribution 4.0 International https://mdpi.com/books/pdfview/book/10162 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-2463-2 10.3390/books978-3-7258-2463-2 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725824649 9783725824632 194 Basel open access |
| spellingShingle | chitosan dialdehyde collagen bioengineering cutaneous cells scaffolds polylactic acid (PLA) 3D printing medical devices sterilisation physicochemical changes biological response zebrafish model poly(lactic acid) nanocrystalline cellulose methacrylation particles tissue engineering eco-friendly recycle plastic bottles polyethylene terephthalate (PET) hot mix asphalt (HMA) polymer-modified bitumen (PMB) fatigue life moisture susceptibility stability flow biodegradable packaging lignocellulose cellulose nanofibrils feedstock selection sustainability assessment waste management polylactic acid citric acid poly(1,3-propylene glycol) toughening agent algae biomaterial biopolymer bioplastic food packaging edible film red dragon fruit peel anthocyanins gambier catechins indicator film co-pigmentation banana ripeness active packaging chitosan quercetin layered clay polyvinyl alcohol polyvinyl alcohol films PVA/glycerol blends crystallinity infrared spectroscopy X-ray diffraction thermogravimetry differential thermal analysis atomic force microscopy lateral force microscopy ultrasonic force microscopy thema EDItEUR::K Economics, Finance, Business and Management::KJ Business and Management::KJC Business strategy thema EDItEUR::M Medicine and Nursing::MJ Clinical and internal medicine::MJC Diseases and disorders::MJCL Oncology Biodegradable Polymers to Biomedical and Packaging Applications |
| title | Biodegradable Polymers to Biomedical and Packaging Applications |
| title_full | Biodegradable Polymers to Biomedical and Packaging Applications |
| title_fullStr | Biodegradable Polymers to Biomedical and Packaging Applications |
| title_full_unstemmed | Biodegradable Polymers to Biomedical and Packaging Applications |
| title_short | Biodegradable Polymers to Biomedical and Packaging Applications |
| title_sort | biodegradable polymers to biomedical and packaging applications |
| topic | chitosan dialdehyde collagen bioengineering cutaneous cells scaffolds polylactic acid (PLA) 3D printing medical devices sterilisation physicochemical changes biological response zebrafish model poly(lactic acid) nanocrystalline cellulose methacrylation particles tissue engineering eco-friendly recycle plastic bottles polyethylene terephthalate (PET) hot mix asphalt (HMA) polymer-modified bitumen (PMB) fatigue life moisture susceptibility stability flow biodegradable packaging lignocellulose cellulose nanofibrils feedstock selection sustainability assessment waste management polylactic acid citric acid poly(1,3-propylene glycol) toughening agent algae biomaterial biopolymer bioplastic food packaging edible film red dragon fruit peel anthocyanins gambier catechins indicator film co-pigmentation banana ripeness active packaging chitosan quercetin layered clay polyvinyl alcohol polyvinyl alcohol films PVA/glycerol blends crystallinity infrared spectroscopy X-ray diffraction thermogravimetry differential thermal analysis atomic force microscopy lateral force microscopy ultrasonic force microscopy thema EDItEUR::K Economics, Finance, Business and Management::KJ Business and Management::KJC Business strategy thema EDItEUR::M Medicine and Nursing::MJ Clinical and internal medicine::MJC Diseases and disorders::MJCL Oncology |
| topic_facet | chitosan dialdehyde collagen bioengineering cutaneous cells scaffolds polylactic acid (PLA) 3D printing medical devices sterilisation physicochemical changes biological response zebrafish model poly(lactic acid) nanocrystalline cellulose methacrylation particles tissue engineering eco-friendly recycle plastic bottles polyethylene terephthalate (PET) hot mix asphalt (HMA) polymer-modified bitumen (PMB) fatigue life moisture susceptibility stability flow biodegradable packaging lignocellulose cellulose nanofibrils feedstock selection sustainability assessment waste management polylactic acid citric acid poly(1,3-propylene glycol) toughening agent algae biomaterial biopolymer bioplastic food packaging edible film red dragon fruit peel anthocyanins gambier catechins indicator film co-pigmentation banana ripeness active packaging chitosan quercetin layered clay polyvinyl alcohol polyvinyl alcohol films PVA/glycerol blends crystallinity infrared spectroscopy X-ray diffraction thermogravimetry differential thermal analysis atomic force microscopy lateral force microscopy ultrasonic force microscopy thema EDItEUR::K Economics, Finance, Business and Management::KJ Business and Management::KJC Business strategy thema EDItEUR::M Medicine and Nursing::MJ Clinical and internal medicine::MJC Diseases and disorders::MJCL Oncology |
| url | ONIX_20250220_9783725824649_287 |