LEADER 01733nam0 2200337 i 450 001 SUN0054538 005 20160407103322.969 010 $a978-06-911129-8-5$d0.00 100 $a20061016d2003 |0engc50 ba 101 $aeng 102 $aUS 105 $a|||| ||||| 200 1 $a*Analytic theory of global bifurcation$ean introduction$fBoris Buffoni and John Toland 210 $aPrinceton$cPrinceton university$d2003 215 $aX, 169 p.$d24 cm. 410 1$1001SUN0047460$12001 $aPrinceton series in applied mathematics$1210 $aPrinceton$cPrinceton university. 606 $a37-XX$xDynamical systems and ergodic theory [MSC 2020]$2MF$3SUNC020363 606 $a58C15$xImplicit function theorems; global Newton methods on manifolds [MSC 2020]$2MF$3SUNC022282 606 $a37Gxx$xLocal and nonlocal bifurcation theory for dynamical systems [MSC 2020]$2MF$3SUNC025524 606 $a76D07$xStokes and related (Oseen, etc.) flows [MSC 2020]$2MF$3SUNC028772 606 $a47J15$xAbstract bifurcation theory involving nonlinear operators [MSC 2020]$2MF$3SUNC029260 620 $aUS$dPrinceton$3SUNL000078 700 1$aBuffoni$b, Boris$3SUNV043118$0283902 701 1$aToland$b, John$3SUNV043119$05790 712 $aPrinceton university$3SUNV000300$4650 801 $aIT$bSOL$c20201026$gRICA 856 4 $u/sebina/repository/catalogazione/documenti/Buffoni, Toland - Analytic theory of global bifurcation. an introduction.PDF$zContents 912 $aSUN0054538 950 $aUFFICIO DI BIBLIOTECA DEL DIPARTIMENTO DI MATEMATICA E FISICA$d08PREST 37-XX 0625 $e08 6654 I 20061016 996 $aAnalytic Theory of Global Bifurcation$9670601 997 $aUNICAMPANIA LEADER 02332oam 2200601I 450 001 9910450821903321 005 20200520144314.0 010 $a1-134-69157-2 010 $a0-203-01269-0 010 $a1-280-33390-1 024 7 $a10.4324/9780203012697 035 $a(CKB)1000000000251027 035 $a(EBL)165431 035 $a(OCoLC)51389637 035 $a(SSID)ssj0000181986 035 $a(PQKBManifestationID)11190164 035 $a(PQKBTitleCode)TC0000181986 035 $a(PQKBWorkID)10166504 035 $a(PQKB)10642049 035 $a(MiAaPQ)EBC165431 035 $a(Au-PeEL)EBL165431 035 $a(CaPaEBR)ebr10055962 035 $a(CaONFJC)MIL33390 035 $a(EXLCZ)991000000000251027 100 $a20180331d1998 uy 0 101 0 $aeng 135 $aur|n|---||||| 181 $ctxt 182 $cc 183 $acr 200 00$aInterpreting Japanese society $eanthropological approaches /$fedited by Joy Hendry 205 $a2nd ed. 210 1$aLondon ;$aNew York :$cRoutledge,$d1998. 215 $a1 online resource (312 p.) 300 $aDescription based upon print version of record. 311 $a0-415-17268-3 311 $a0-415-17267-5 320 $aIncludes bibliographical references and index. 327 $aBook Cover; Title; Copyright; Contents 330 $aFirst published in 1986, Interpreting Japanese Society became something of a classic in the field. In this newly revised and updated edition, the value of anthropological approaches to help understand an ancient and complex nation is clearly demonstrated.While living and working in Japan the contributors have studied important areas of society. Religion, ritual, leisure, family and social relations are covered as are Japanese preconceptions of time and space - often so different from Western concepts.This new edition of Interpreting Japanese Society shows what an impo 606 $aAnthropology$zJapan 607 $aJapan$xCivilization$y1945- 607 $aJapan$xSocial conditions$y1945- 608 $aElectronic books. 615 0$aAnthropology 676 $a952.04 701 $aHendry$b Joy$0852173 801 0$bFlBoTFG 801 1$bFlBoTFG 906 $aBOOK 912 $a9910450821903321 996 $aInterpreting Japanese society$91903026 997 $aUNINA LEADER 10921nam 2200661Ia 450 001 9910828020503321 005 20251116171625.0 010 $a1-283-37953-8 010 $a9786613379535 010 $a3-527-64182-3 010 $a3-527-64184-X 035 $a(CKB)2670000000138716 035 $a(EBL)827183 035 $a(OCoLC)769343051 035 $a(SSID)ssj0000638333 035 $a(PQKBManifestationID)11408658 035 $a(PQKBTitleCode)TC0000638333 035 $a(PQKBWorkID)10714301 035 $a(PQKB)10605643 035 $a(MiAaPQ)EBC827183 035 $a(BIP)46367870 035 $a(BIP)33840844 035 $a(EXLCZ)992670000000138716 100 $a20110728d2012 uy 0 101 0 $aeng 135 $aur|n|---||||| 181 $ctxt 182 $cc 183 $acr 200 00$aMass spectrometry in polymer chemistry /$fedited by Christopher Barner-Kowollik ... [et al.] 205 $a1st ed. 210 $aWeinheim $cWiley-VCH$dc2012 215 $a1 online resource (483 p.) 300 $aBibliographic Level Mode of Issuance: Monograph 311 08$a3-527-32924-2 320 $aIncludes bibliographical references and index. 327 $aMass Spectrometry in Polymer Chemistry -- Contents -- List of Contributors -- Introduction -- 1 Mass Analysis -- 1.1 Introduction -- 1.2 Measures of Performance -- 1.2.1 Mass Resolving Power -- 1.2.2 Mass Accuracy -- 1.2.3 Mass Range -- 1.2.4 Linear Dynamic Range -- 1.2.5 Abundance Sensitivity -- 1.3 Instrumentation -- 1.3.1 Sector Mass Analyzers -- 1.3.2 Quadrupole Mass Filters -- 1.3.3 3D Ion Traps -- 1.3.4 Linear Ion Traps -- 1.3.5 Time-of-Flight Mass Analyzers -- 1.3.6 Fourier Transform Ion Cyclotron Resonance Mass Analyzers -- 1.3.7 Orbitraps -- 1.4 Instrumentation in Tandem and Multiple-Stage Mass Spectrometry -- 1.5 Conclusions and Outlook -- References -- 2 Ionization Techniques for Polymer Mass Spectrometry -- 2.1 Introduction -- 2.2 Small Molecule Ionization Era -- 2.2.1 Electron Ionization (EI) -- 2.2.2 Chemical Ionization (CI) -- 2.2.3 Pyrolysis Mass Spectrometry (Py-MS) -- 2.3 Macromass Era of Ionization -- 2.3.1 Field Desorption (FD) and Field Ionization (FI) -- 2.3.2 Secondary Ion Mass Spectrometry (SIMS) -- 2.3.3 Fast Atom Bombardment (FAB) and Liquid Secondary Ion Mass Spectrometry (LSIMS) -- 2.3.4 Laser Desorption (LD) -- 2.3.5 Plasma Desorption (PD) -- 2.3.6 Other Ionization Methods -- 2.4 Modern Era of Ionization Techniques -- 2.4.1 Electrospray Ionization (ESI) -- 2.4.2 New Trends -- 2.4.3 Atmospheric Pressure Chemical Ionization (APCI) -- 2.4.4 New Trends -- 2.4.5 Matrix-Assisted Laser Desorption/Ionization (MALDI) -- 2.4.6 New Trends -- 2.5 Conclusions -- References -- 3 Tandem Mass Spectrometry Analysis of Polymer Structures and Architectures -- 3.1 Introduction -- 3.2 Activation Methods -- 3.2.1 Collisionally Activated Dissociation (CAD) -- 3.2.2 Surface-Induced Dissociation (SID) -- 3.2.3 Photodissociation Methods -- 3.2.4 Electron Capture Dissociation and Electron Transfer Dissociation (ECD/ETD). 327 $a3.2.5 Post-Source Decay (PSD) -- 3.3 Instrumentation -- 3.3.1 Quadrupole Ion Trap (QIT) Mass Spectrometers -- 3.3.2 Quadrupole/time-of-flight (Q/ToF) Mass Spectrometers -- 3.3.3 ToF/ToF Instruments -- 3.4 Structural Information from MS2 Studies -- 3.4.1 End-Group Analysis and Isomer/Isobar Differentiation -- 3.4.2 Polymer Architectures -- 3.4.3 Copolymer Sequences -- 3.4.4 Assessment of Intrinsic Stabilities and Binding Energies -- 3.5 Summary and Outlook -- References -- 4 Matrix-Assisted Inlet Ionization and Solvent-Free Gas-Phase Separation Using Ion Mobility Spectrometry for Imaging and Electron Transfer Dissociation Mass Spectrometry of Polymers -- 4.1 Overview -- 4.2 Introduction -- 4.3 New Sample Introduction Technologies -- 4.3.1 Laserspray Ionization - Ion Mobility Spectrometry-Mass Spectrometry -- 4.3.2 Matrix Assisted Inlet Ionization (MAII) -- 4.3.3 LSIV in Reflection Geometry at Intermediate Pressure (IP) -- 4.4 Fragmentation by ETD and CID -- 4.5 Surface Analyses by Imaging MS -- 4.5.1 Ultraf Fast LSII-MS Imaging in Transmission Geometry (TG) -- 4.5.2 LSIV-IMS-MS Imaging in Reflection Geometry (RG) -- 4.6 Future Outlook -- References -- 5 Polymer MALDI Sample Preparation -- 5.1 Introduction -- 5.2 Roles of the Matrix -- 5.2.1 Intimate Contact -- 5.2.2 Absorption of Laser Light -- 5.2.3 Efficient Desorption -- 5.2.4 Effective Ionization -- 5.3 Choice of Matrix -- 5.4 Choice of the Solvent -- 5.5 Basic Solvent-Based Sample Preparation Recipe -- 5.6 Deposition Methods -- 5.7 Solvent-Free Sample Preparation -- 5.8 The Vortex Method -- 5.9 Matrix-to-Analyte Ratio -- 5.10 Salt-to-Analyte Ratio -- 5.11 Chromatography as Sample Preparation -- 5.12 Problems in MALDI Sample Preparation -- 5.13 Predicting MALDI Sample Preparation -- 5.14 Conclusions -- References -- 6 Surface Analysis and Imaging Techniques -- 6.1 Imaging Mass Spectrometry. 327 $a6.2 Secondary Ion Mass Spectrometry -- 6.2.1 Static SIMS of Polymers -- 6.2.1.1 The Fingerprint Region -- 6.2.1.2 High-Mass Region -- 6.2.2 Imaging in Polymer Blends and Multicomponent Systems -- 6.2.3 Data Analysis Methods -- 6.2.4 Polymer Depth Profiling with Cluster Ion Beams -- 6.2.4.1 A Brief Discussion on the Physics and Chemistry of Sputtering and its Role in Optimized Beam Conditions -- 6.2.5 3-D Analysis in Polymer Systems -- 6.3 Matrix-Assisted Laser Desorption Ionization (MALDI) -- 6.3.1 History of MALDI Imaging Mass Spectrometry -- 6.3.2 Sample Preparation in MALDI Imaging -- 6.3.3 MALDI Imaging of Polymers -- 6.3.4 Outlook -- 6.4 Other Surface Mass Spectrometry Methods -- 6.4.1 Desorption Electrospray Ionization -- 6.4.2 Plasma Desorption Ionization Methods -- 6.4.3 Electrospray Droplet Impact for SIMS -- 6.5 Outlook -- References -- 7 Hyphenated Techniques -- 7.1 Introduction -- 7.2 Polymer Separation Techniques -- 7.3 Principles of Coupling: Transfer Devices -- 7.3.1 Online Coupling Devices -- 7.3.2 Off-Line Coupling Devices -- 7.4 Examples -- 7.4.1 Coupling of SEC with MALDI-/ESI-MS -- 7.4.2 Coupling of LAC/LC-CC with MALDI-/ESI-MS -- 7.5 Conclusions -- References -- 8 Automated Data Processing and Quantification in Polymer Mass Spectrometry -- 8.1 Introduction -- 8.2 File and Data Formats -- 8.3 Optimization of Ionization Conditions -- 8.4 Automated Spectral Analysis and Data Reduction in MS -- 8.4.1 Long-Standing Approaches -- 8.4.2 Some New Concepts -- 8.4.3 Mass Autocorrelation -- 8.4.4 Time-Series Segmentation -- 8.5 Copolymer Analysis -- 8.6 Data Interpretation in MS/MS -- 8.7 Quantitative MS and the Determination of MMDs by MS -- 8.7.1 Quantitative MMD Measurement by MALDI-MS -- 8.7.1.1 Example for Mixtures of Monodisperse Components -- 8.7.1.2 Example for Mixtures of Polydisperse Components. 327 $a8.7.1.3 Calculating the Correction Factor for Each Oligomer -- 8.7.1.4 Step by Step Procedure for Quantitation -- 8.7.1.5 Determination of the Absolute MMD -- 8.7.2 Quantitative MMD Measurement by SEC/ESI-MS -- 8.7.2.1 Exact Measurement of the MMD of Homopolymers -- 8.7.2.2 MMD of the Individual Components in Mixtures of Functional Homopolymers -- 8.7.3 Comparison of the Two Methods for MMD Calculation -- 8.7.4 Simple Methods for the Determination of the Molar Abundance of Functional Polymers in Mixtures -- 8.8 Conclusions and Outlook -- References -- 9 Comprehensive Copolymer Characterization -- 9.1 Introduction -- 9.2 Scope -- 9.3 Reviews -- 9.4 Soft Ionization Techniques -- 9.4.1 MALDI -- 9.4.2 ESI -- 9.4.3 APCI -- 9.5 Separation Prior MS -- 9.5.1 LC-MS -- 9.5.2 Ion Mobility Spectrometry-Mass Spectrometry (IMS-MS) -- 9.6 Tandem MS (MS/MS) -- 9.7 Quantitative MS -- 9.8 Copolymers for Biological or (Bio)medical Application -- 9.9 Software Development -- 9.10 Summary and Outlook -- References -- 10 Elucidation of Reaction Mechanisms: Conventional Radical Polymerization -- 10.1 Introduction -- 10.2 Basic Principles and General Considerations -- 10.3 Initiation -- 10.3.1 Radical Generation -- 10.3.1.1 Thermally Induced Initiator Decomposition -- 10.3.1.2 Photoinduced Initiator Decomposition -- 10.3.1.3 Other Means -- 10.3.2 Initiator Efficiency -- 10.4 Propagation -- 10.4.1 Propagation Rate Coefficients -- 10.4.2 Chain-Length Dependence of Propagation -- 10.4.3 Copolymerization -- 10.5 Termination -- 10.6 Chain Transfer -- 10.6.1 Transfer to Small Molecules -- 10.6.2 Acrylate Systems -- 10.7 Emulsion Polymerization -- 10.8 Conclusion -- References -- 11 Elucidation of Reaction Mechanisms and Polymer Structure: Living/Controlled Radical Polymerization -- 11.1 Protocols Based on a Persistent Radical Effect (NMP, ATRP, and Related). 327 $a11.2 Protocols Based on Degenerative Chain Transfer (RAFT, MADIX) -- 11.3 Protocols based on CCT -- 11.4 Novel Protocols and Minor Protocols -- 11.5 Conclusions -- References -- 12 Elucidation of Reaction Mechanisms: Other Polymerization Mechanisms -- 12.1 Introduction -- 12.2 Ring-Opening Polymerization Mechanisms of Cyclic Ethers -- 12.3 Ring-Opening Polymerization Mechanisms of Cyclic Esters and Carbonates -- 12.4 Ring-Opening Metathesis Polymerization -- 12.5 Mechanisms of Step-Growth Polymerization -- 12.6 Concluding Remarks -- References -- 13 Polymer Degradation -- 13.1 Introduction -- 13.2 Thermal and Thermo-Oxidative Degradation -- 13.3 Photolysis and Photooxidation -- 13.4 Biodegradation -- 13.5 Other Degradation Processes -- 13.6 Conclusions -- References -- 14 Outlook -- Index. 330 $aCombining an up-to-date insight into mass-spectrometric polymer analysis beyond MALDI with application details of the instrumentation, this is a balanced and thorough presentation of the most important and widely used mass-spectrometric methods. Written by the world's most proficient experts in the field, the book focuses on the latest developments, covering such technologies and applications as ionization protocols, tandem and liquid chromatography mass spectrometry, gas-phase ion-separation techniques and automated data processing. Chapters on sample preparation, polymer degradation and the usage of mass-spectrometric tools on an industrial scale round off the book. As a result, both entrants to the field and experienced researchers are able to choose the appropriate methods and instrumentations -- and to assess their respective strengths and limitations -- for the characterization of polymer compounds. 606 $aMass spectrometry 606 $aPolymers$xSpectra 606 $aPolymers 615 0$aMass spectrometry. 615 0$aPolymers$xSpectra. 615 0$aPolymers. 676 $a547.7046 676 $a610.28 701 $aBarner-Kowollik$b Christopher$01608859 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910828020503321 996 $aMass spectrometry in polymer chemistry$94069271 997 $aUNINA