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100   $a20191130d2019      u|         0
101 0 $aeng
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181   $ctxt$2rdacontent
182   $cc$2rdamedia
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200 10$aMicrobial Nanobionics $eVolume 1, State-of-the-Art /$fedited by Ram Prasad
205   $a1st ed. 2019.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2019.
215   $a1 online resource (332 pages) $cillustrations
225 1 $aNanotechnology in the Life Sciences,$x2523-8035
300   $aIncludes index.
311   $a3-030-16382-2 
327   $aPreface -- 1. Processing of Nanoparticles by Biomatrices in a Green Approach -- 2. . Green Synthesis/ Biogenic Materials, Characterization and Their Applications -- 3. Biological Synthesis of Nanoparticles by Different Groups of Bacteria -- 4. Mushrooms: New Biofactories for Nanomaterials Production of Different Industrial and Medical Applications -- 5. Actinomycetes: It?s realm in Nanotechnology -- 6. Impact of nanomaterials in Microbial system -- 7. Microbial Production of Nanoparticles: Mechanisms and Applications -- 8. Microbial Nanobionic Engineering: Translational and Transgressive Science of an Antidisciplinary Approximation -- 9. Microbial Nanobionics: Application of Nanobiosensors in Microbial Growth and Diagnostics -- 10. Cancer Bionanotechnology: Biogenic Synthesis of Metallic Nanoparticles and their Pharmaceutical Potency -- 11. Antimicrobial Nanocomposites for Improving Indoor Air Quality -- 12. Microbial Photosynthetic Reaction Centers and Functional Nano Hybrids -- 13. Nanomaterials in Microbial Fuel cells and Related Applications -- Index.
330   $aMicrobial Nanobionics: Volume 1, State of the Art, discusses a wide range of microbial systems and their utilization in biogenic synthesis of metallic nanoparticles. The rich biodiversity of microbes makes them excellent candidates for potential nanoparticle synthesis biofactories. Through a better understanding of the biochemical and molecular mechanisms of the microbial biosynthesis of metal nanoparticles, the rate of synthesis can be better developed and the monodispersity of the product can be enhanced. The characteristics of nanoparticles can be controlled via optimization of important parameters, such as temperature, pH, concentration and pressure, which regulate microbe growth conditions and cellular and enzymatic activities. Large scale microbial synthesis of nanoparticles is a sustainable method due to the non-hazardous, non-toxic and economical nature of these processes. The applications of microbial synthesis of nanoparticles are wide and varied, spanning the industrial, biomedical and environmental fields. Biomedical applications include improved and more targeted antimicrobials, biosensing, imaging and drug delivery. In the environmental fields, nanoparticles are used for bioremediation of diverse contaminants, water treatment, catalysis and production of clean energy. With the expected growth of microbial nanotechnology, this volume will serve as a comprehensive and timely reference.
410  0$aNanotechnology in the Life Sciences,$x2523-8035
606   $aMicrobiology
606   $aPlant genetics
606   $aMicrobial genetics
606   $aNanotechnology
606   $aPlants$xEvolution
606   $aMicrotechnology
606   $aMicroelectromechanical systems
606   $aMicrobiology
606   $aPlant Genetics
606   $aMicrobial Genetics
606   $aNanotechnology
606   $aPlant Evolution
606   $aMicrosystems and MEMS
606   $aNanopartícules$2thub
608   $aLlibres electrònics$2thub
615  0$aMicrobiology.
615  0$aPlant genetics.
615  0$aMicrobial genetics.
615  0$aNanotechnology.
615  0$aPlants$xEvolution.
615  0$aMicrotechnology.
615  0$aMicroelectromechanical systems.
615 14$aMicrobiology.
615 24$aPlant Genetics.
615 24$aMicrobial Genetics.
615 24$aNanotechnology.
615 24$aPlant Evolution.
615 24$aMicrosystems and MEMS.
615  7$aNanopartícules
676   $a620.5
702   $aPrasad$b Ram$4edt$4http://id.loc.gov/vocabulary/relators/edt
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910373910203321
996   $aMicrobial Nanobionics$92179773
997   $aUNINA