Verfügbarkeit: Fourier transform infrared spectrometry

Fourier transform infrared spectrometry:

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Bibliographische Detailangaben
Hauptverfasser:	Griffiths, Peter R. 1942- (VerfasserIn), De Haseth, James A. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Hoboken, NJ Wiley 2007
Ausgabe:	2. ed.
Schriftenreihe:	Chemical analysis 171
Schlagworte:	FT-IR-Spektroskopie Fourier-Spektroskopie Fourier transform infrared spectroscopy Infrarotspektroskopie Fourier-Transformation
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVII, 529 S. graph. Darst.
ISBN:	0471194042 9780471194040

Internformat

MARC


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Datensatz im Suchindex

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adam_text	CONTENTS PREFACE XV CHAPTER 1 INTRODUCTION TO VIBRATIONAL SPECTROSCOPY 1 1.1. Introduction 1 1.2. Molecular Vibrations 3 1.3. Vibration-Rotation Spectroscopy 6 1.4. Widths of Bands and Lines in Infrared Spectra 10 1.4.1. Vibration-Rotation Spectra of Gases 10 1.4.2. Spectra of Condensed-Phase Samples 11 1.5. Quantitative Considerations 12 1.5.1. Beer s Law 12 1.5.2. Optical Constants 14 1.6. Polarized Radiation 15 1.7. Raman Spectrometry 16 1.8. Summary 18 CHAPTER 2 THEORETICAL BACKGROUND 19 2.1. Michelson Interferometer 19 2.2. Generation of an Interferogram 20 2.3. Effect of Finite Resolution 26 2.4. Apodization 30 2.5. Phase Effects 36 2.6. Effect of Beam Divergence 41 2.7. Effect of Mirror Misalignment 46 2.8. Effect of a Poor Mirror Drive 49 2.9. Ranid-Scan Interferometers 50 2.10. Step-Scan Interferometers 53 VI CONTENTS CHAPTER 3 SAMPLING THE INTERFEROGRAM 3.1. Sampling Frequency 3.1.1. Nyquist Frequency 3.1.2. Conceptual Discussion of Aliasing 3.1.3. Mathematical Discussion of Aliasing 3.2. Aliasing 3.3. Dynamic Range 3.3.1. ADC Specifications 3.3.2. Digitization Noise 3.3.3. Gain Ranging 3.3.4. Chirping 3.4. Analog-to-Digital Converters 57 57 57 58 60 62 64 64 66 68 69 71 CHAPTER 4 FOURIER TRANSFORMS 4.1. Classical Fourier Transform 4.1.1. Elementary Concepts 4.1.2. Mathematical Basis 4.2. Fast Fourier Transform 4.3. Phase Correction 4.4. Fourier Transform: Pictorial Essay 4.5. Data Systems 75 75 75 76 78 85 88 93 CHAPTER 5 TWO-BEAM INTERFEROMETERS 5.1. Michelson-Type Interferometers 5.1.1. Introduction 5.1.2. Drive 5.1.3. Bearings 5.1.4. Fringe Referencing 5.1.5. Dynamic Alignment 5.2. Tilt-Compensated Interferometers 5.2.1. Cube-Corner Interferometers 5.2.2. Other Designs 5.3. Refractively Scanned Interferometers 5.4. Polarization Interferometers 5.5. Step-Scan Interferometers 5.6. Stationary Interferometers 5.7. Beamsplitters 97 97 97 97 98 104 110 112 112 118 123 125 127 128 132 CONTENTS 5.8. Lamellar Grating Interferometers Appendix: Manufacturers of FT-IR Spectrometers VII 138 142 CHAPTER 6 OTHER COMPONENTS OF FT-IR SPECTROMETERS 143 6.1. Infrared Radiation Sources for Transmission and Reflection Spectrometry 143 6.1.1. Mid-Infrared Sources 143 6.1.2. Near-Infrared Sources 145 6.1.3. Far-Infrared Sources 146 6.2. Detectors 146 6.2.1. Thermal Detectors 146 6.2.2. Quantum Detectors 148 6.3. Optics 152 6.3.1. Paraboloidal Mirrors 152 6.3.2. Plane Mirrors 155 6.3.3. Ellipsoids, Toroids, and Other Aspherical Mirrors 155 6.4. Spectrometer Design 156 CHAPTER 7 SIGNAL-TO-NOISE RATIO 161 7.1. Detector Noise 161 7.2. Trading Rules in FT-IR Spectrometry 164 7.2.1. Effect of Resolution and Throughput on SNR 164 7.2.2. Effect of Apodization 165 7.2.3. Effect of Changing Mirror Velocity 165 7.3. Digitization Noise 166 7.4. Other Sources of Noise 167 7.4.1. Sampling Error 167 7.4.2. Folding 168 7.4.3. Fluctuation Noise 169 7.4.4. Shot Noise 170 7.5. Interferometers Versus Grating Spectrometers 171 7.5.1. Fellgetťs Advantage 171 7.5.2. Jacquinoťs Advantage 172 7.5.3. Other Factors 173 Vlil CONTENTS CHAPTER 8 PHOTOMETRIC ACCURACY IN FT-IR SPECTROMETRY 177 8.1. Introduction 177 8.2. Effect of Spectral Resolution 177 8.3. Effect of Apodization 180 8.3.1. Triangular Apodization 180 8.3.2. Norton-Beer Apodization Functions 181 8.4. 100% Lines 181 8.4.1. Short-Term Performance 181 8.4.2. Glitches (Nonrandom Noise Sources) 184 8.4.3. Long-Term Performance 185 8.4.4. Effect of Sample Diameter and Thickness 186 8.5. Zero Energy Level 187 8.5.1. Detector Response Nonlinearity 187 8.5.2. Changes in Modulation Efficiency 191 8.5.3. Sampling Effects 193 8.6. Linearity Between 100% and 0%Г 194 CHAPTER 9 QUANTITATIVE ANALYSIS 197 9.1. Introduction 197 9.2. Beer s Law 197 9.3. Spectral Subtraction 201 9.4. Linear Least-Squares Fitting Methods 204 9.5. Classical Least Squares 207 9.6. Inverse Least-Squares Regression 210 9.7. Principal Component Analysis 213 9.8. Principal Component Regression 215 9.9. Partial Least-Squares Regression 216 9.10. Validation 217 9.11. Multivariate Curve Resolution 218 9.12. General Guidelines for Calibration Data Sets 220 9.13. Neural Networks 221 CHAPTER 10 DATA PROCESSING 225 10.1. Baseline Correction 225 10.2. Interpolation 227 10.3. Peak Picking 229 10.4. Spectral Smoothing 232 CONTENTS IX 10.5. Band Fitting 235 10.6. Derivatives of Spectra 237 10.7. Fourier Self-Deconvolution 240 10.8. Spectral Searching 246 CHAPTER 11 CONVENTIONAL TRANSMISSION SPECTROMETRY 251 11.1. Condensed-Phase Samples 251 11.1.1 Window Materials 251 11.1.2 Band Intensities 251 11.1.3 Interference Fringes 253 11.1.4 Trace Analysis 255 11.2. Gas- and Vapor-Phase Samples 256 CHAPTER 12 POLARIZATION 261 12.1. Plane-Polarized Radiation 261 12.2. Circular Polarization 263 12.3. Polarization Modulation 264 12.4. Applications of Linear Dichroism 266 12.5. Vibrational Circular Dichroism 269 CHAPTER 13 SPECULAR REFLECTION 277 13.1. Introduction 277 13.2. Fresnel Reflection from Bulk Samples 277 13.2.1. Fresnel Equations 277 13.2.2. Nonabsorbing Materials 278 13.2.3. Absorbing Materials 279 13.3. Infrared Reflection-Absorption Spectrometry with Metal Substrates 282 13.3.1. Effect of Incidence Angle and Polarization 282 13.3.2. Polarization Modulation 287 13.3.3. Surface Selection Rule 290 13.4. IRRAS with Dielectric Substrates 293 13.5. Transflection 297 13.5.1. Thick Films on Metal Substrates 297 13.5.2. Liquid Sampling for Near-Infrared Spectrometry 300 13.6. Summary 300 X CONTENTS CHAPTER 14 MICROSPECTROSCOPY AND IMAGING 303 14.1. Microsampling with Beam Condensers 303 14.2. Microscopes 304 14.3. Diamond Anvil Cells 309 14.4. Reflection Microscopy 310 14.5. Hyperspectral FT-IR Imaging 312 14.5.1. Hyperspectral Imaging with a Step-Scanning Interferometer 312 14.5.2. Hyperspectral Imaging with a Continuous-Scanning Interferometer 314 14.5.3. Signal-to-Noise Ratio 316 14.5.4. Software 318 14.5.5. Applications of Hyperspectral Imaging 319 CHAPTER 15 ATTENUATED TOTAL REFLECTION 321 15.1. Introduction 321 15.2. Theory 322 15.3. Practical Considerations 327 15.4. Accessories for Multiple Internal Reflection 329 15.5. Single-Reflection Accessories 336 15.6. Infrared Fibers 342 15.7. Summary 347 CHAPTER 16 DIFFUSE REFLECTION 16.1. Theory of Diffuse Reflection 16.2. Accessories for Diffuse Reflection 16.3. Applications of Mid-Infrared Diffuse Reflection Spectrometry 16.4. Applications of Near-Infrared Diffuse Reflection Spectrometry 16.5. Reference Materials for Diffuse Reflection Spectrometry 349 349 353 355 358 361 CHAPTER 17 EMISSION 17.1. Introduction 17.2. Infrared Emission Spectra of Gases 363 363 363 CONTENTS 17.3. Infrared Emission Spectra of Condensed-Phase Samples 17.4. Transient Infrared Emission Spectroscopy 366 368 CHAPTER 18 FOURIER TRANSFORM RAMAN SPECTROMETRY 375 18.1. Introduction 375 18.2. Instrumentation 378 18.2.1. Nd: YAG Laser 378 18.2.2. Filters 380 18.2.3. Collection Optics 381 18.2.4. Interferometer 382 18.2.5. Detector 382 18.2.6. Spectrometer 384 18.3. FT Raman Versus CCD Raman Spectrometry 385 18.4. Applications of FT-Raman Spectrometry 387 18.4.1. Standard Raman Spectroscopy 387 18.4.2. Surface-Enhanced Raman Spectroscopy 389 18.5. Summary 391 CHAPTER 19 TIME-RESOLVED SPECTROMETRY 395 19.1. Continuous-Scanning Interferometers 395 19.1.1. Instrumental Considerations 395 19.1.2. Applications 397 19.2. Time-Resolved Measurements Using Step-Scan Interferometers 400 19.2.1. Instrumental Considerations 400 19.2.2. Applications of Time-Resolved Spectroscopy with a Step-Scan Interferometer 402 19.3. Stroboscopic Spectrometry 407 19.4. Asynchronous Time-Resolved FT-IR Spectrometry 408 19.4.1. Instrumental Considerations 408 19.4.2. Application to Liquid-Crystal Orientation Dynamics 412 хп CONTENTS CHAPTER 20 PHOTOACOUSTIC SPECTROMETRY 20.1. Photoacoustic Spectroscopy of Gases 20.2. Photoacoustic Spectroscopy of Solids with a Rapid-Scanning Interferometer 20.3. Photoacoustic Spectroscopy of Solids with a Step-Scan Interferometer 20.3.1. Phase Modulation 20.3.2. Depth Profiling by Varying the Photoacoustic Phase 20.3.3. Multifrequency Measurements 415 415 417 425 425 428 431 CHAPTER 21 SAMPLE MODULATION SPECTROMETRY WITH A STEP-SCAN INTERFEROMETER 435 21.1. Dynamic Infrared Linear Dichroism Measured with a Monochromator 435 21.2. DIRLD Spectrometry with a Step-Scan Fourier Transform Spectrometer 440 21.3. Two-Dimensional Correlation Plots 448 21.4. DIRLD Spectrometry with a FT-IR Spectrometery and Digital Signal Processing 454 21.5. Other Sample Modulation Measurements with Step-Scan Interferometers 458 21.5.1. Liquid-Crystal Electroreorientation 458 21.5.2. Infrared Spectroelectrochemistry 460 CHAPTER 22 ATMOSPHERIC MONITORING 463 22.1. Extractive Atmospheric Monitoring 463 22.2. Open-Path Atmospheric Monitoring 466 CHAPTER 23 COUPLED TECHNIQUES 23.1. Introduction 23.2. Light-Pipe-Based GC/FT-IR Interfaces 23.2.1. Instrumental Considerations 23.2.2. Spectroscopie Considerations 23.2.3. Chromatogram Construction 23.2.4. Example of GC/FT-IR 23.3. Mobile-Phase Elimination Approaches for GC/FT-IR 481 481 482 482 485 486 490 491 CONTENTS ХШ 23.3.1. Introduction 491 23.3.2. Matrix Isolation GC/FT-IR 491 23.3.3. Direct Deposition GC/FT-IR 493 23.4. HPLC/FT-IR Interface 495 23.4.1. Measurements Made with Flow Cells 495 23.4.2. Mobile-Phase Elimination Techniques for HPLC/FT-IR 496 23.5. SFC/FT-IR Interface 500 23.6. TGA/FT-IR 502 23.7. Other Coupled Techniques 504 INDEX 509
adam_txt	CONTENTS PREFACE XV CHAPTER 1 INTRODUCTION TO VIBRATIONAL SPECTROSCOPY 1 1.1. Introduction 1 1.2. Molecular Vibrations 3 1.3. Vibration-Rotation Spectroscopy 6 1.4. Widths of Bands and Lines in Infrared Spectra 10 1.4.1. Vibration-Rotation Spectra of Gases 10 1.4.2. Spectra of Condensed-Phase Samples 11 1.5. Quantitative Considerations 12 1.5.1. Beer's Law 12 1.5.2. Optical Constants 14 1.6. Polarized Radiation 15 1.7. Raman Spectrometry 16 1.8. Summary 18 CHAPTER 2 THEORETICAL BACKGROUND 19 2.1. Michelson Interferometer 19 2.2. Generation of an Interferogram 20 2.3. Effect of Finite Resolution 26 2.4. Apodization 30 2.5. Phase Effects 36 2.6. Effect of Beam Divergence 41 2.7. Effect of Mirror Misalignment 46 2.8. Effect of a Poor Mirror Drive 49 2.9. Ranid-Scan Interferometers 50 2.10. Step-Scan Interferometers 53 VI CONTENTS CHAPTER 3 SAMPLING THE INTERFEROGRAM 3.1. Sampling Frequency 3.1.1. Nyquist Frequency 3.1.2. Conceptual Discussion of Aliasing 3.1.3. Mathematical Discussion of Aliasing 3.2. Aliasing 3.3. Dynamic Range 3.3.1. ADC Specifications 3.3.2. Digitization Noise 3.3.3. Gain Ranging 3.3.4. Chirping 3.4. Analog-to-Digital Converters 57 57 57 58 60 62 64 64 66 68 69 71 CHAPTER 4 FOURIER TRANSFORMS 4.1. Classical Fourier Transform 4.1.1. Elementary Concepts 4.1.2. Mathematical Basis 4.2. Fast Fourier Transform 4.3. Phase Correction 4.4. Fourier Transform: Pictorial Essay 4.5. Data Systems 75 75 75 76 78 85 88 93 CHAPTER 5 TWO-BEAM INTERFEROMETERS 5.1. Michelson-Type Interferometers 5.1.1. Introduction 5.1.2. Drive 5.1.3. Bearings 5.1.4. Fringe Referencing 5.1.5. Dynamic Alignment 5.2. Tilt-Compensated Interferometers 5.2.1. Cube-Corner Interferometers 5.2.2. Other Designs 5.3. Refractively Scanned Interferometers 5.4. Polarization Interferometers 5.5. Step-Scan Interferometers 5.6. Stationary Interferometers 5.7. Beamsplitters 97 97 97 97 98 104 110 112 112 118 123 125 127 128 132 CONTENTS 5.8. Lamellar Grating Interferometers Appendix: Manufacturers of FT-IR Spectrometers VII 138 142 CHAPTER 6 OTHER COMPONENTS OF FT-IR SPECTROMETERS 143 6.1. Infrared Radiation Sources for Transmission and Reflection Spectrometry 143 6.1.1. Mid-Infrared Sources 143 6.1.2. Near-Infrared Sources 145 6.1.3. Far-Infrared Sources 146 6.2. Detectors 146 6.2.1. Thermal Detectors 146 6.2.2. Quantum Detectors 148 6.3. Optics 152 6.3.1. Paraboloidal Mirrors 152 6.3.2. Plane Mirrors 155 6.3.3. Ellipsoids, Toroids, and Other Aspherical Mirrors 155 6.4. Spectrometer Design 156 CHAPTER 7 SIGNAL-TO-NOISE RATIO 161 7.1. Detector Noise 161 7.2. Trading Rules in FT-IR Spectrometry 164 7.2.1. Effect of Resolution and Throughput on SNR 164 7.2.2. Effect of Apodization 165 7.2.3. Effect of Changing Mirror Velocity 165 7.3. Digitization Noise 166 7.4. Other Sources of Noise 167 7.4.1. Sampling Error 167 7.4.2. Folding 168 7.4.3. Fluctuation Noise 169 7.4.4. Shot Noise 170 7.5. Interferometers Versus Grating Spectrometers 171 7.5.1. Fellgetťs Advantage 171 7.5.2. Jacquinoťs Advantage 172 7.5.3. Other Factors 173 Vlil CONTENTS CHAPTER 8 PHOTOMETRIC ACCURACY IN FT-IR SPECTROMETRY 177 8.1. Introduction 177 8.2. Effect of Spectral Resolution 177 8.3. Effect of Apodization 180 8.3.1. Triangular Apodization 180 8.3.2. Norton-Beer Apodization Functions 181 8.4. 100% Lines 181 8.4.1. Short-Term Performance 181 8.4.2. Glitches (Nonrandom Noise Sources) 184 8.4.3. Long-Term Performance 185 8.4.4. Effect of Sample Diameter and Thickness 186 8.5. Zero Energy Level 187 8.5.1. Detector Response Nonlinearity 187 8.5.2. Changes in Modulation Efficiency 191 8.5.3. Sampling Effects 193 8.6. Linearity Between 100% and 0%Г 194 CHAPTER 9 QUANTITATIVE ANALYSIS 197 9.1. Introduction 197 9.2. Beer's Law 197 9.3. Spectral Subtraction 201 9.4. Linear Least-Squares Fitting Methods 204 9.5. Classical Least Squares 207 9.6. Inverse Least-Squares Regression 210 9.7. Principal Component Analysis 213 9.8. Principal Component Regression 215 9.9. Partial Least-Squares Regression 216 9.10. Validation 217 9.11. Multivariate Curve Resolution 218 9.12. General Guidelines for Calibration Data Sets 220 9.13. Neural Networks 221 CHAPTER 10 DATA PROCESSING 225 10.1. Baseline Correction 225 10.2. Interpolation 227 10.3. Peak Picking 229 10.4. Spectral Smoothing 232 CONTENTS IX 10.5. Band Fitting 235 10.6. Derivatives of Spectra 237 10.7. Fourier Self-Deconvolution 240 10.8. Spectral Searching 246 CHAPTER 11 CONVENTIONAL TRANSMISSION SPECTROMETRY 251 11.1. Condensed-Phase Samples 251 11.1.1 Window Materials 251 11.1.2 Band Intensities 251 11.1.3 Interference Fringes 253 11.1.4 Trace Analysis 255 11.2. Gas- and Vapor-Phase Samples 256 CHAPTER 12 POLARIZATION 261 12.1. Plane-Polarized Radiation 261 12.2. Circular Polarization 263 12.3. Polarization Modulation 264 12.4. Applications of Linear Dichroism 266 12.5. Vibrational Circular Dichroism 269 CHAPTER 13 SPECULAR REFLECTION 277 13.1. Introduction 277 13.2. Fresnel Reflection from Bulk Samples 277 13.2.1. Fresnel Equations 277 13.2.2. Nonabsorbing Materials 278 13.2.3. Absorbing Materials 279 13.3. Infrared Reflection-Absorption Spectrometry with Metal Substrates 282 13.3.1. Effect of Incidence Angle and Polarization 282 13.3.2. Polarization Modulation 287 13.3.3. Surface Selection Rule 290 13.4. IRRAS with Dielectric Substrates 293 13.5. Transflection 297 13.5.1. Thick Films on Metal Substrates 297 13.5.2. Liquid Sampling for Near-Infrared Spectrometry 300 13.6. Summary 300 X CONTENTS CHAPTER 14 MICROSPECTROSCOPY AND IMAGING 303 14.1. Microsampling with Beam Condensers 303 14.2. Microscopes 304 14.3. Diamond Anvil Cells 309 14.4. Reflection Microscopy 310 14.5. Hyperspectral FT-IR Imaging 312 14.5.1. Hyperspectral Imaging with a Step-Scanning Interferometer 312 14.5.2. Hyperspectral Imaging with a Continuous-Scanning Interferometer 314 14.5.3. Signal-to-Noise Ratio 316 14.5.4. Software 318 14.5.5. Applications of Hyperspectral Imaging 319 CHAPTER 15 ATTENUATED TOTAL REFLECTION 321 15.1. Introduction 321 15.2. Theory 322 15.3. Practical Considerations 327 15.4. Accessories for Multiple Internal Reflection 329 15.5. Single-Reflection Accessories 336 15.6. Infrared Fibers 342 15.7. Summary 347 CHAPTER 16 DIFFUSE REFLECTION 16.1. Theory of Diffuse Reflection 16.2. Accessories for Diffuse Reflection 16.3. Applications of Mid-Infrared Diffuse Reflection Spectrometry 16.4. Applications of Near-Infrared Diffuse Reflection Spectrometry 16.5. Reference Materials for Diffuse Reflection Spectrometry 349 349 353 355 358 361 CHAPTER 17 EMISSION 17.1. Introduction 17.2. Infrared Emission Spectra of Gases 363 363 363 CONTENTS 17.3. Infrared Emission Spectra of Condensed-Phase Samples 17.4. Transient Infrared Emission Spectroscopy 366 368 CHAPTER 18 FOURIER TRANSFORM RAMAN SPECTROMETRY 375 18.1. Introduction 375 18.2. Instrumentation 378 18.2.1. Nd: YAG Laser 378 18.2.2. Filters 380 18.2.3. Collection Optics 381 18.2.4. Interferometer 382 18.2.5. Detector 382 18.2.6. Spectrometer 384 18.3. FT Raman Versus CCD Raman Spectrometry 385 18.4. Applications of FT-Raman Spectrometry 387 18.4.1. Standard Raman Spectroscopy 387 18.4.2. Surface-Enhanced Raman Spectroscopy 389 18.5. Summary 391 CHAPTER 19 TIME-RESOLVED SPECTROMETRY 395 19.1. Continuous-Scanning Interferometers 395 19.1.1. Instrumental Considerations 395 19.1.2. Applications 397 19.2. Time-Resolved Measurements Using Step-Scan Interferometers 400 19.2.1. Instrumental Considerations 400 19.2.2. Applications of Time-Resolved Spectroscopy with a Step-Scan Interferometer 402 19.3. Stroboscopic Spectrometry 407 19.4. Asynchronous Time-Resolved FT-IR Spectrometry 408 19.4.1. Instrumental Considerations 408 19.4.2. Application to Liquid-Crystal Orientation Dynamics 412 хп CONTENTS CHAPTER 20 PHOTOACOUSTIC SPECTROMETRY 20.1. Photoacoustic Spectroscopy of Gases 20.2. Photoacoustic Spectroscopy of Solids with a Rapid-Scanning Interferometer 20.3. Photoacoustic Spectroscopy of Solids with a Step-Scan Interferometer 20.3.1. Phase Modulation 20.3.2. Depth Profiling by Varying the Photoacoustic Phase 20.3.3. Multifrequency Measurements 415 415 417 425 425 428 431 CHAPTER 21 SAMPLE MODULATION SPECTROMETRY WITH A STEP-SCAN INTERFEROMETER 435 21.1. Dynamic Infrared Linear Dichroism Measured with a Monochromator 435 21.2. DIRLD Spectrometry with a Step-Scan Fourier Transform Spectrometer 440 21.3. Two-Dimensional Correlation Plots 448 21.4. DIRLD Spectrometry with a FT-IR Spectrometery and Digital Signal Processing 454 21.5. Other Sample Modulation Measurements with Step-Scan Interferometers 458 21.5.1. Liquid-Crystal Electroreorientation 458 21.5.2. Infrared Spectroelectrochemistry 460 CHAPTER 22 ATMOSPHERIC MONITORING 463 22.1. Extractive Atmospheric Monitoring 463 22.2. Open-Path Atmospheric Monitoring 466 CHAPTER 23 COUPLED TECHNIQUES 23.1. Introduction 23.2. Light-Pipe-Based GC/FT-IR Interfaces 23.2.1. Instrumental Considerations 23.2.2. Spectroscopie Considerations 23.2.3. Chromatogram Construction 23.2.4. Example of GC/FT-IR 23.3. Mobile-Phase Elimination Approaches for GC/FT-IR 481 481 482 482 485 486 490 491 CONTENTS ХШ 23.3.1. Introduction 491 23.3.2. Matrix Isolation GC/FT-IR 491 23.3.3. Direct Deposition GC/FT-IR 493 23.4. HPLC/FT-IR Interface 495 23.4.1. Measurements Made with Flow Cells 495 23.4.2. Mobile-Phase Elimination Techniques for HPLC/FT-IR 496 23.5. SFC/FT-IR Interface 500 23.6. TGA/FT-IR 502 23.7. Other Coupled Techniques 504 INDEX 509
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id	DE-604.BV020868942
illustrated	Illustrated
index_date	2024-07-02T13:25:27Z
indexdate	2024-07-09T20:27:05Z
institution	BVB
isbn	0471194042 9780471194040
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-014190720
oclc_num	254783254
open_access_boolean
owner	DE-703 DE-20 DE-91G DE-BY-TUM DE-19 DE-BY-UBM DE-355 DE-BY-UBR DE-522 DE-634 DE-92 DE-188
owner_facet	DE-703 DE-20 DE-91G DE-BY-TUM DE-19 DE-BY-UBM DE-355 DE-BY-UBR DE-522 DE-634 DE-92 DE-188
physical	XVII, 529 S. graph. Darst.
publishDate	2007
publishDateSearch	2007
publishDateSort	2007
publisher	Wiley
record_format	marc
series	Chemical analysis
series2	Chemical analysis
spelling	Griffiths, Peter R. 1942- Verfasser (DE-588)172105838 aut Fourier transform infrared spectrometry Peter R. Griffiths ; James A. de Haseth 2. ed. Hoboken, NJ Wiley 2007 XVII, 529 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Chemical analysis 171 FT-IR-Spektroskopie Fourier-Spektroskopie Fourier transform infrared spectroscopy Infrarotspektroskopie (DE-588)4135411-4 gnd rswk-swf Fourier-Spektroskopie (DE-588)4135413-8 gnd rswk-swf Fourier-Transformation (DE-588)4018014-1 gnd rswk-swf FT-IR-Spektroskopie (DE-588)4135416-3 gnd rswk-swf FT-IR-Spektroskopie (DE-588)4135416-3 s DE-604 Fourier-Spektroskopie (DE-588)4135413-8 s Infrarotspektroskopie (DE-588)4135411-4 s 1\p DE-604 Fourier-Transformation (DE-588)4018014-1 s 2\p DE-604 De Haseth, James A. Verfasser aut Erscheint auch als Online-Ausgabe 978-0-470-10629-7 Erscheint auch als Online-Ausgabe 978-0-470-10631-0 Chemical analysis 171 (DE-604)BV000008780 171 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014190720&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Griffiths, Peter R. 1942- De Haseth, James A. Fourier transform infrared spectrometry Chemical analysis FT-IR-Spektroskopie Fourier-Spektroskopie Fourier transform infrared spectroscopy Infrarotspektroskopie (DE-588)4135411-4 gnd Fourier-Spektroskopie (DE-588)4135413-8 gnd Fourier-Transformation (DE-588)4018014-1 gnd FT-IR-Spektroskopie (DE-588)4135416-3 gnd
subject_GND	(DE-588)4135411-4 (DE-588)4135413-8 (DE-588)4018014-1 (DE-588)4135416-3
title	Fourier transform infrared spectrometry
title_auth	Fourier transform infrared spectrometry
title_exact_search	Fourier transform infrared spectrometry
title_exact_search_txtP	Fourier transform infrared spectrometry
title_full	Fourier transform infrared spectrometry Peter R. Griffiths ; James A. de Haseth
title_fullStr	Fourier transform infrared spectrometry Peter R. Griffiths ; James A. de Haseth
title_full_unstemmed	Fourier transform infrared spectrometry Peter R. Griffiths ; James A. de Haseth
title_short	Fourier transform infrared spectrometry
title_sort	fourier transform infrared spectrometry
topic	FT-IR-Spektroskopie Fourier-Spektroskopie Fourier transform infrared spectroscopy Infrarotspektroskopie (DE-588)4135411-4 gnd Fourier-Spektroskopie (DE-588)4135413-8 gnd Fourier-Transformation (DE-588)4018014-1 gnd FT-IR-Spektroskopie (DE-588)4135416-3 gnd
topic_facet	FT-IR-Spektroskopie Fourier-Spektroskopie Fourier transform infrared spectroscopy Infrarotspektroskopie Fourier-Transformation
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014190720&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV000008780
work_keys_str_mv	AT griffithspeterr fouriertransforminfraredspectrometry AT dehasethjamesa fouriertransforminfraredspectrometry

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