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200 1 $aKulturgeschichte der Neuzeit$eDie Krisis der europäischen Seele von der schwarzen Pest bis zum Ersten Weltkrieg. 1.: Einleitung ; Renaissance und Reformation$fEgon Friedell
205   $a13. bis 17. Auflage
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101 0 $aeng
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200 10$aApplications of electrospun nanofiber membranes for bioseparations /$fTodd J. Menkhaus, Lifeng Zhang and Hao Fong
205   $a1st ed.
210   $aNew York $cNova Science Publishers$dc2010
215   $a1 online resource (71 p.)
225 0 $aNanotechnology science and technology series
300   $aDescription based upon print version of record.
311 08$a1-60876-782-5 
320   $aIncludes bibliographical references and index.
327   $a""APPLICATIONS OF ELECTROSPUNNANOFIBER MEMBRANES FORBIOSEPARATIONS""; ""CONTENTS""; ""ABSTRACT""; ""INTRODUCTION""; ""FABRICATION AND PROPERTIES OFELECTROSPUN NANOFIBERS""; ""2.1. ELECTROSPINNING PROCESS""; ""2.2. FABRICATION TECHNIQUES FORELECTROSPUN NANOFIBERS""; ""2.2.1. Synthetic Polymer Nanofibers""; ""2.2.2. Natural Polymer Nanofibers""; ""2.2.3. Carbon Nanofibers""; ""2.2.4. Ceramic Nanofibers/Hollow Nanofibers""; ""2.3. MORPHOLOGIES AND PROPERTIES OFELECTROSPUN NANOFIBERS""; ""NANOFIBER MEMBRANE BIOSEPARATIONS""; ""3.1. ADSORPTIVE BIOSEPARATIONS""
327   $a""3.1.1. Ion-Exchange and Hydrophobic Interaction NanofiberMembrane Adsorption /Chromatography""""3.1.1.1. Surface Modification for Ion-Exchange and HydrophobicInteraction Functionality""; ""3.1.1.2. Ion-Exchange Nanofiber Membrane Bioseparations""; ""3.1.2. Affinity Nanofiber Membrane Adsorption/Chromatography""; ""3.1.2.1. Surface Modification for Affinity Functionality""; ""3.1.2.2. Affinity Nanofiber Membrane Bioseparations""; ""3.2. SIZE-BASED BIOSEPARATIONS WITHNANOFIBER MEMBRANES""; ""CONCLUSION""; ""ACKNOWLEDGEMENT""; ""REFERENCES""; ""ABOUT THE AUTHORS""; ""INDEX""
330   $aThe technique of electrospinning is a unique way to produce nanofibers. Unlike conventional fiber spinning techniques such as melt-, wet-, and dry-spinning, which are capable of producing fibers with diameters in the micrometer range, electrospinning can produce fibers with diameters in the nanometer range that result in an enormous amount of surface area in a small volume. These very fine fibers can be fabricated at a relatively low cost and in large quantity from a variety of materials (including natural polymers such as cellulose, synthetic polymers such as polystyrene, carbon/graphite, and ceramincs) to provide chemical robustness while also being biologically inert. This book discusses the bioseparation applications of nanofiber membranes, including fabrication techniques and properties for the electrospun nanofibers, chemical modification of the membrane fibers, and purification of biological products by size-based and adsorptive mechanisms.
410  0$aNanotechnology Science and Technology
606   $aMembrane separation
606   $aNanofibers
606   $aElectrospinning
606   $aBiomolecules$xSeparation
615  0$aMembrane separation.
615  0$aNanofibers.
615  0$aElectrospinning.
615  0$aBiomolecules$xSeparation.
676   $a660/.2842
700   $aMenkhaus$b Todd J$01860913
701   $aZhang$b Lifeng$01784296
701   $aFong$b Hao$f1970-$01860914
801  0$bMiAaPQ
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906   $aBOOK
912   $a9910962056903321
996   $aApplications of electrospun nanofiber membranes for bioseparations$94466873
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