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200 10$aAnalyses of Hazardous Substances in Air. Vol. 6
210 31$a[Place of publication not identified]$cWiley VCH Imprint$d2002
215   $a1 online resource (231 pages)
225 1 $aMAK-Collection for Occupational Health and Safety. Part III: Air Monitoring Methods (DFG)
300   $aBibliographic Level Mode of Issuance: Monograph
311   $a3-527-27053-1 
330   $aThis is the sixth volume in an international series of analytical methods for the determination of toxicants in the air at the workplace. All methods are reliable, reproducable and meet the requirements for quality control. The analysis of the levels of hazardous substances in the air inhaled by workers in the chemical industry and similar working environments is necessary to monitor adherence to statutory concentration limits and to protect the workers from the adverse effects of such substances.
410  0$aMAK-Collection for Occupational Health and Safety. Part III: Air Monitoring Methods (DFG)
608   $aElectronic books.
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700   $aKettrup$b Antonius$098873
702   $aGreim$b Helmut
712 02$aCommission for the Investigation of Health Hazards of Chemical Compounds in the Work Area
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996   $aAnalyses of Hazardous Substances in Air. Vol. 6$92031088
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200 10$aPolymer micro- and nanografting /$fCelestino Padeste, Sonja Neuhaus
210  1$aWaltham, Massachusetts ;$aOxford, England :$cWilliam Andrew,$d2015.
210  4$dİ2015
215   $a1 online resource (112 p.)
225 1 $aMicro & Nano Technologies Series
300   $aDescription based upon print version of record.
311   $a1-322-96312-6 
320   $aIncludes bibliographical references at the end of each chapters.
327   $a""Front Cover""; ""Polymer Micro- and Nanografting""; ""Copyright Page""; ""Contents""; ""Preface: Polymer Structures on Polymer Substrates""; ""Acknowledgements""; ""1 Functional Polymer Structures""; ""1.1 Polymer Systems: Inertness Versus Functionality""; ""1.2 Polymer Brushes""; ""1.2.1 Formation of Polymer Brushes on Surfaces""; ""1.2.2 Responsive Polymer Brushes""; ""1.2.3 Polyelectrolyte Brushes""; ""1.2.4 Biofunctional Brushes""; ""1.2.5 Patterned Polymer Brushes""; ""References""; ""2 Polymer-on-Polymer Structures Based on Radiation Grafting""; ""2.1 Introduction""
327   $a""2.2 Impact of Radiation on Polymers""""2.2.1 Non-ionizing Versus Ionizing Radiation""; ""2.2.2 Differences and Similarities of Photons and Particle Beams""; ""2.2.3 Implications for Shadow Masks""; ""2.3 Radiation Grafting Using Photons""; ""2.3.1 Visible Light and UV Radiation""; ""Lasers as Light Sources""; ""2.3.2 Structures Via Extreme UV Lithography""; ""EUV Interference Exposures""; ""Growth of Polymer Brushes""; ""Structure Formation""; ""2.3.3 Photons in the keV Range""; ""2.3.4 Gamma Radiation""; ""2.4 Radiation Grafting Using Electrons""
327   $a""2.4.1 Structures Via Electron Beam Lithography""""2.4.2 Absorption Mask Techniques Using Low-Energy Electron Beams""; ""2.4.3 High-Energy Electrons""; ""2.5 Radiation Grafting Using Particle Beams""; ""2.5.1 Plasma Activation""; ""2.5.2 Accelerated Ions""; ""2.5.3 Swift Heavy Ions""; ""2.6 Conclusions""; ""References""; ""3 Initiator Immobilization Strategies for Structured Brushes""; ""3.1 General Initiator Patterning Strategies""; ""3.2 Patterning Strategies for Atom Transfer Radical Polymerization""; ""3.2.1 Initiator Immobilization and Patterning on Silicon Substrates""
327   $a""3.2.2 Polymers with Functional Groups for Initiator Immobilization""""3.2.3 Initiator Immobilization on Inert Polymer Substrates""; ""3.3 Patterning Strategies for Reversible Addition Fragmentation Transfer Polymerization""; ""3.3.1 Site-Selective Polymerization Using a Light-Sensitive Initiator (Photoiniferter)""; ""3.3.2 Selective Polymerization Using Substrates Containing a Light-Sensitive Initiator""; ""3.4 Patterning Strategies Using Benzophenone Chemistry""; ""3.5 Conclusions""; ""References""; ""4 Functional Polymer-on-Polymer Structures""
327   $a""4.1 Grafting Functional Monomers Versus Post-Polymerization Modification""""4.2 Responsive Structures""; ""4.2.1 Responsiveness to Changes in pH""; ""4.2.2 Responsiveness to Temperature Changes""; ""4.2.3 Magneto-responsiveness""; ""4.2.4 Responsiveness Based on Counterion Exchange""; ""4.2.5 Light Responsiveness""; ""4.3 Biofunctional Structures""; ""4.4 Conclusions""; ""References""; ""5 Characterization Challenges of Micro- and Nanografted Polymer Systems""; ""5.1 Introduction""; ""5.2 Spectroscopic Methods""; ""5.2.1 Infrared Spectroscopy""; ""5.2.2 Ultraviolet/Visual Spectroscopy""
327   $a""5.2.3 Fluorescence Spectroscopy""
330   $a Polymers have proven to be very suitable materials for topographic structuring, in particular in nanoreplication processes. Micro- and Nanografting strategies address the possibility for the formation of chemical patterns and structures on or in polymeric substrates using relatively simple processes. Polymer Micro- and Nanografting focuses on grafting techniques characterization and applications for the particular combination of polymer layers on polymer substrates. The authors, leaders in this area of research, provide a comprehensive survey on polymer-on-polymer grafting, covering the lates
410  0$aMicro & nano technologies.
606   $aGraft copolymers
606   $aPolymer engineering
615  0$aGraft copolymers.
615  0$aPolymer engineering.
676   $a668.9
700   $aPadeste$b Celestino$01510946
702   $aNeuhaus$b Sonja
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996   $aPolymer micro- and nanografting$93743932
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