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  • Books  (5)
  • Online Books  (5)
  • alginate  (3)
  • air quality  (2)
  • Basel, Beijing, Wuhan : MDPI  (5)
  • 2020-2020
  • 2015-2019  (5)
  • 2010-2014
  • 1940-1944
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  • Books  (5)
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  • Online Books  (5)
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  • 2020-2020
  • 2015-2019  (5)
  • 2010-2014
  • 1940-1944
Year
Topic
  • 1
    Unknown
    Advances in Environmental Engineering (2018)
    Basel, Beijing, Wuhan : MDPI
    Details
    Keywords: water and wastewater management ; sediment pollution ; soil ; air quality ; LCA ; environmental assessment ; environmental materials
    Description / Table of Contents: Environmental quality is crucial to our health, our economy and our living. However, it faces several serious challenges, not least those of climate change, unsustainable consumption and production, as well as various forms of pollution. This Special Issue invites research papers aimed at a wide range of environmental issues: Water and wastewater management, water and sediment pollution control and remediation, soil degradation, conservation and remediation, waste management, landscape management, air quality and indoor environment, environmental impacts of buildings and materials, and LCA (Life-cycle assessment).
    Pages: Online-Ressource (X, 150 Seiten) , Illustrationen, Diagramme
    Edition: Printed Edition of the Special Issue Published in Environments
    ISBN: 9783038970026
    URL: http://www.mdpi.com/books/pdfview/book/700
    Language: English
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  • 2
    Unknown
    Marine Polysaccharides : Volume 3 (2018)
    Basel, Beijing, Wuhan : MDPI
    Details
    Keywords: chitosan ; alginate ; agar ; carrageenans ; exopolysaccharides ; chemical modification ; drug delivery ; gene delivery
    Description / Table of Contents: Biopolymers, as natural polysaccharides, are considered benign polymers for what concerns the environment. This is not a new invention, but at best a renaissance: the first type of polymers used by human kind were animal hides, cellulose, silk, wool. Among benefits of natural occurring biopolymers there are potential biocompatibility, renewable resources, low processing costs, tailoring of structure by genetic manipulation, and, as said, environmentally compatibility. Limits are, sometimes, premature degradation and high production costs due to the very high purity required for medical uses. Polysaccharides are not drugs by themselves, but their use in pharmaceutical field, for example as drug carriers or antimicrobial, anti-inflammatory or anticoagulant agents, is increasingly promising. Marine polysaccharides include chitin, chitosan, alginate, agar and carrageenans. Chitosan is a cationic carbohydrate biopolymer derived from chitin, the second most abundant polysaccharides present in nature after cellulose. The main sources of chitin are the shell wastes of shrimps, lobsters and crabs. For its characteristics, chitosan founds particular application as non viral vector in gene delivery. Films from chitosan are very tough and long lasting. Alginates derive from seaweed extraction (pheophyceae), and are mainly used in drug delivery and as hydrogels for immobilizing cells and enzymes, due to the mild conditions of cross-linking through bivalent cations (Ca2 ). Agar (or agar-agar) and carrageenans are linear polysaccharides from red seaweeds. They are highly reactive chemically and are peculiar for thermoreversible gel formation. Exopolysaccharides (EPS), substantial components of the extracellular matrix of many cells of marine origin, also have to be mentioned for their potential interest in pharmaceuticals, and new EPS producing bacteria, particularly from extreme marine environments, are being isolated.The possibility of chemical modification, blending and addition of biodegradable additives allows to tailor the final properties of polysaccharides and opens the doors to wider applications, particularly in pharmaceutical area. This issue is intended to explore any new potentiality of marine polysaccharides, as those above mentioned, deriving from chemical or chemical-physical modifications, and the scaling-up of their pharmaceutical applications.
    Pages: Online-Ressource (X, 564 Seiten)
    Edition: Printed Edition of the Special Issue Published in Marine Drugs
    ISBN: 9783038429029
    URL: http://www.mdpi.com/books/pdfview/book/592
    Language: English
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  • 3
    Unknown
    Marine Polysaccharides : Volume 1 (2018)
    Basel, Beijing, Wuhan : MDPI
    Details
    Keywords: chitosan ; alginate ; agar ; carrageenans ; exopolysaccharides ; chemical modification ; drug delivery ; gene delivery
    Description / Table of Contents: Biopolymers, as natural polysaccharides, are considered benign polymers for what concerns the environment. This is not a new invention, but at best a renaissance: the first type of polymers used by human kind were animal hides, cellulose, silk, wool. Among benefits of natural occurring biopolymers there are potential biocompatibility, renewable resources, low processing costs, tailoring of structure by genetic manipulation, and, as said, environmentally compatibility. Limits are, sometimes, premature degradation and high production costs due to the very high purity required for medical uses. Polysaccharides are not drugs by themselves, but their use in pharmaceutical field, for example as drug carriers or antimicrobial, anti-inflammatory or anticoagulant agents, is increasingly promising. Marine polysaccharides include chitin, chitosan, alginate, agar and carrageenans. Chitosan is a cationic carbohydrate biopolymer derived from chitin, the second most abundant polysaccharides present in nature after cellulose. The main sources of chitin are the shell wastes of shrimps, lobsters and crabs. For its characteristics, chitosan founds particular application as non viral vector in gene delivery. Films from chitosan are very tough and long lasting. Alginates derive from seaweed extraction (pheophyceae), and are mainly used in drug delivery and as hydrogels for immobilizing cells and enzymes, due to the mild conditions of cross-linking through bivalent cations (Ca2+). Agar (or agar-agar) and carrageenans are linear polysaccharides from red seaweeds. They are highly reactive chemically and are peculiar for thermoreversible gel formation. Exopolysaccharides (EPS), substantial components of the extracellular matrix of many cells of marine origin, also have to be mentioned for their potential interest in pharmaceuticals, and new EPS producing bacteria, particularly from extreme marine environments, are being isolated. The possibility of chemical modification, blending and addition of biodegradable additives allows to tailor the final properties of polysaccharides and opens the doors to wider applications, particularly in pharmaceutical area. This issue is intended to explore any new potentiality of marine polysaccharides, as those above mentioned, deriving from chemical or chemical-physical modifications, and the scaling-up of their pharmaceutical applications.
    Pages: Online-Ressource (VIII, 224 Seiten)
    Edition: Printed Edition of the Special Issue Published in Marine Drugs
    ISBN: 9783038428985
    URL: http://www.mdpi.com/books/pdfview/book/590
    Language: English
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  • 4
    Unknown
    Marine Polysaccharides : Volume 2 (2018)
    Basel, Beijing, Wuhan : MDPI
    Details
    Keywords: chitosan ; alginate ; agar ; carrageenans ; exopolysaccharides ; chemical modification ; drug delivery ; gene delivery
    Description / Table of Contents: Biopolymers, as natural polysaccharides, are considered benign polymers for what concerns the environment. This is not a new invention, but at best a renaissance: the first type of polymers used by human kind were animal hides, cellulose, silk, wool. Among benefits of natural occurring biopolymers there are potential biocompatibility, renewable resources, low processing costs, tailoring of structure by genetic manipulation, and, as said, environmentally compatibility. Limits are, sometimes, premature degradation and high production costs due to the very high purity required for medical uses. Polysaccharides are not drugs by themselves, but their use in pharmaceutical field, for example as drug carriers or antimicrobial, anti-inflammatory or anticoagulant agents, is increasingly promising. Marine polysaccharides include chitin, chitosan, alginate, agar and carrageenans. Chitosan is a cationic carbohydrate biopolymer derived from chitin, the second most abundant polysaccharides present in nature after cellulose. The main sources of chitin are the shell wastes of shrimps, lobsters and crabs. For its characteristics, chitosan founds particular application as non viral vector in gene delivery. Films from chitosan are very tough and long lasting. Alginates derive from seaweed extraction (pheophyceae), and are mainly used in drug delivery and as hydrogels for immobilizing cells and enzymes, due to the mild conditions of cross-linking through bivalent cations (Ca2 ). Agar (or agar-agar) and carrageenans are linear polysaccharides from red seaweeds. They are highly reactive chemically and are peculiar for thermoreversible gel formation. Exopolysaccharides (EPS), substantial components of the extracellular matrix of many cells of marine origin, also have to be mentioned for their potential interest in pharmaceuticals, and new EPS producing bacteria, particularly from extreme marine environments, are being isolated.The possibility of chemical modification, blending and addition of biodegradable additives allows to tailor the final properties of polysaccharides and opens the doors to wider applications, particularly in pharmaceutical area. This issue is intended to explore any new potentiality of marine polysaccharides, as those above mentioned, deriving from chemical or chemical-physical modifications, and the scaling-up of their pharmaceutical applications.
    Pages: Online-Ressource (X, 290 Seiten)
    Edition: Printed Edition of the Special Issue Published in Marine Drugs
    ISBN: 9783038429005
    URL: http://www.mdpi.com/books/pdfview/book/591
    Language: English
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  • 5
    Unknown
    Air Quality and Source Apportionment (2016)
    Basel, Beijing, Wuhan : MDPI
    Details
    Keywords: air quality
    Description / Table of Contents: Atmospheric particulate matter (PM) is known to have far-ranging impacts, from human health to climate forcing. The characterization of emission sources and the quantification of specific source impacts to PM concentrations significantly enhance our understanding of and our ability to eventually predict the fate and transport of atmospheric PM and its associated impacts on humans and the environment. The source apportionment of PM has been realized through combinations of chemical analysis (of elemental tracers, particle size, isotopic composition, and organic composition via unique tracers and molecular fingerprints) and numerical modeling (e.g., diagnostic source ratios, chemical mass balance modeling, positive matrix factorization, and Monte Carlo simulations). Recent advances in source apportionment applications have contributed unique combinations of chemical and numerical techniques for determining the contributions of specific sources, including diesel exhaust and biomass burning. These advances also identify and help characterize the contributions of previously uncharacterized sources. Numerical modeling has also enabled estimations of contributions of emission sources to atmospherically processed PM in urban and rural regions.
    Pages: Online-Ressource (XVI, 226 Seiten)
    Edition: Printed Edition of the Special Issue Published in Atmosphere
    ISBN: 9783038422990
    URL: http://www.mdpi.com/books/pdfview/book/239
    Language: English
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