| Judul | Products Marine-Derived for Biomedicine / Marco Giovine (Ed.) |
| Penerbitan | Switzerland : MDPI - Multidisciplinary Digital Publishing Institute, 2020 |
| Deskripsi Fisik | 214 p. :ilus |
| ISBN | 978-3-03943-131-1 |
| Subjek | AQUACULTURAL BIOTECHNOLOGY |
| Catatan | Marine resources have considerable potential to develop high-value materials for applications in di?erent ?elds, namely pharmaceutical, environmental, and biomedical. Despite that, the lack of solubility of marine-derived polymers in water and common organic solvents could restrict their applications. In the last years, ionic liquids (ILs) have emerged as platforms able to overcome those drawbacks, opening many routes to enlarge the use of marine-derived polymers as biomaterials, among other applications. From this perspective, ILs can be used as an e?cient extraction media for polysaccharides from marine microalgae and wastes (e.g., crab shells, squid, and skeletons) or as solvents to process them in di?erent shapes, such as ?lms, hydrogels, nano/microparticles, and sca?olds. The resulting architectures can be applied in wound repair, bone regeneration, or gene and drug delivery systems. This review is focused on the recent research on the applications of ILs as processing platforms of biomaterials derived f |
| Bentuk Karya | Tidak ada kode yang sesuai |
| Target Pembaca | Tidak ada kode yang sesuai |
| Lokasi Akses Online |
https://oer.unair.ac.id/files/original/5652381702efff16e299f3604b0d1a8f.pdf |
| No Barcode | No. Panggil | Akses | Lokasi | Ketersediaan |
|---|---|---|---|---|
| 057425192 | 578.76 Pro | Baca Online | Perpustakaan Pusat - Online Resources Ebook |
Tersedia |
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| 001 | INLIS000000000160686 | ||
| 005 | 20250422022116 | ||
| 007 | ta | ||
| 008 | 250422################|##########|#|## | ||
| 020 | # | # | $a 978-3-03943-131-1 |
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| 082 | # | # | $a 578.76 |
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| 245 | # | # | $a Products Marine-Derived for Biomedicine /$c Marco Giovine (Ed.) |
| 260 | # | # | $a Switzerland :$b MDPI - Multidisciplinary Digital Publishing Institute,$c 2020 |
| 300 | # | # | $a 214 p. : $b ilus |
| 505 | # | # | $a Marine resources have considerable potential to develop high-value materials for applications in di?erent ?elds, namely pharmaceutical, environmental, and biomedical. Despite that, the lack of solubility of marine-derived polymers in water and common organic solvents could restrict their applications. In the last years, ionic liquids (ILs) have emerged as platforms able to overcome those drawbacks, opening many routes to enlarge the use of marine-derived polymers as biomaterials, among other applications. From this perspective, ILs can be used as an e?cient extraction media for polysaccharides from marine microalgae and wastes (e.g., crab shells, squid, and skeletons) or as solvents to process them in di?erent shapes, such as ?lms, hydrogels, nano/microparticles, and sca?olds. The resulting architectures can be applied in wound repair, bone regeneration, or gene and drug delivery systems. This review is focused on the recent research on the applications of ILs as processing platforms of biomaterials derived from marine polymers. |
| 650 | # | # | $a AQUACULTURAL BIOTECHNOLOGY |
| 856 | # | # | $a https://oer.unair.ac.id/files/original/5652381702efff16e299f3604b0d1a8f.pdf |
| 990 | # | # | $a 057425192 |
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