Description
Analytical Pyrolysis presents the Proceedings of the Third International Symposium on Analytical Pyrolysis, held in Amsterdam on September 7-9, 1976. It looks at newly emergent techniques in analytical pyrolysis, including pyrolysis mass spectrometry, gas chromatography, thin-layer chromatography, and pyrolysis-gas liquid chromatography. The book also covers topics ranging from automation and microbiology to forensic science and pharmacology, reproducibility and specificity, biochemistry, laser-induced pyrolysis, pyrolytic reaction mechanisms, and polymers.
Comprised of 50 chapters, this book begins with a discussion of automatic analysis of tire rubber blends using computer-linked pyrolysis gas chromatography, thermal procedures in coupling with thin-layer chromatography, the role of pyrolysis-gas liquid chromatography in biomedical studies, and the identification of microorganisms by pyrolysis gas-liquid chromatography. It then examines forensic applications of analytical pyrolysis techniques, structure and degradation behavior of synthetic polymers using pyrolysis in combination with field ion mass spectrometry, determination of polysaccharides in fulvic acids by pyrolysis gas chromatography, and application of Curie-point pyrolysis mass spectrometry in fungal taxonomy. The reader is also introduced to pyrolysis mass spectrometry of model compounds labeled with stable isotopes, the use of pyrolysis/gas chromatography to determine the quality of porous polymers of styre
Chapter
Chapter 2. Pyrolysis field ionization and field desorption mass spectrometry of biomacromolecules, microorganisms, and tissue material
pp.:
28 – 40
Chapter 3. Thermal procedures in coupling with thin-layer chromatography
pp.:
40 – 50
Chapter 4. An automated analytical system for complex mixtures utilizing separation by high-resolution mass spectrometry and identification by collisional activation mass spectrometry
pp.:
50 – 60
Chapter 5. The role of pyrolysis-gas liquid chromatography in biomedical studies
pp.:
60 – 68
Chapter 6. Comparison on oral streptococci by pyrolysis GLC
pp.:
68 – 80
Chapter 7. Pyrolysis gas-liquid chromatography studies of the genus Bacillus . Effect of growth time on pyrochromatogram reproducibility
pp.:
80 – 88
Chapter 8. The identification of microorganisms by pyrolysis gas-liquid chromatography
pp.:
88 – 100
Chapter 9. Forensic applications of analytical pyrolysis techniques
pp.:
100 – 110
Chapter 10. Application of Curie-point pyrolysis gas chromatography using high-resolution glass opentubular columns
pp.:
110 – 118
Chapter 11. The identification of formulated drugs by Py-GC-MS
pp.:
118 – 128
Chapter 12. Structure and degradation behaviour of synthetic polymers using pyrolysis in combination with field ion mass spectrometry
pp.:
128 – 150
Chapter 13. Direct pyrolysis of aromatic and aliphatic polyesters in the mass spectrometer
pp.:
150 – 162
Chapter 14. Some numerical aspects of reproducibility and specificity
pp.:
162 – 178
Chapter 15. Pyrolysis studies on humus in freely drained Scottish soils
pp.:
178 – 190
Chapter 16. The determination of polysaccharides in fulvic acids by pyrolysis gas chromatography
pp.:
190 – 200
Chapter 17. Pyrolysis as a possible means of determining the petroleum generating potential of sedimentary organic matter
pp.:
200 – 214
Chapter 18. Curie-point pyrolysis in organic geochemistry
pp.:
214 – 228
Chapter 19. Pyrolysis GLC of biomedically interesting molecules
pp.:
228 – 236
Chapter 20. The application of Curie-point pyrolysis mass speetrometry in fungal taxonomy
pp.:
236 – 246
Chapter 21. Laser induced pyrolysis techniques
pp.:
246 – 260
Chapter 22. Laser pyrolysis GC/MS of membrane components
pp.:
260 – 272
Chapter 23. Pyrolytic reaction mechanisms
pp.:
272 – 288
Chapter 24. Pyrolysis mass speetrometry of model compounds labelled with stable isotopes
pp.:
288 – 300
Chapter 25. Curie-point pyrolysis as a guide to new syntheses
pp.:
300 – 308
Chapter 26. Pyrolysis-mass spectrometry of truxillic and truxinic polyamides and related copolyamides
pp.:
308 – 320
Chapter 27. Pyrolysis/gas chromatography as a means of determining the quality of porous polymers of styrene cross-linked with divinyl benzene
pp.:
320 – 330
Chapter 28. The analysis of automotive paints by pyrolysis gas chromatography
pp.:
330 – 348
Chapter 29. Characterisation of textile materials by thermal degradation: A critique of pyrolysis GC and thermogravimetry
pp.:
348 – 362
Chapter 30. An interfaced vapor phase instrumental system for thermal analysis and pyrolysis
pp.:
362 – 376
Chapter 31. Analytical pyrolysis of inorganic and thermostable polymers
pp.:
376 – 384
Chapter 32. Pyrolysis-gas chromatography and spectroscopic identification of fluorine polymers
pp.:
384 – 394
Chapter 33. Automation of a thermogravimetry apparatus with a laboratory computer
pp.:
394 – 404
Chapter 34. Microstructures of vinyl-type copolymers by pyrolysis- gas chromatography
pp.:
404 – 417
Chapter 35. Gas Chromatographic mass spectrometry
pp.:
417 – 418
Chapter 36. Curie-point evaporation: A new and simple technique for splitless injection on open tubular capillary columns
pp.:
418 – 419
Chapter 37. The classification and identification of microorganisms by pyrolysis-mass spectrometry
pp.:
419 – 421
Chapter 38. Quantitative and kinetic studies by pyrolysis gas chromatography
pp.:
421 – 422
Chapter 39. Curie-point pyrolysis mass spectrometry using a Knudsen reactor
pp.:
422 – 423
Chapter 40. The scope of automated pyrolysis mass spectrometry
pp.:
423 – 424
Chapter 41. Pyrolysis gas Chromatographie correlation trials of the American Society for Testing and Materials
pp.:
424 – 425
Chapter 42. Specificity in analytical pyrolysis
pp.:
425 – 426
Chapter 43. Study of the thermal degradation of organic polymers using different metal surfaces as the heat source
pp.:
426 – 427
Chapter 44. Application of pyrohydrolysis for a rapid and accurate determination of halides in silicate rocks and minerals
pp.:
427 – 428
Chapter 45. The quantitative analysis of choline esters in biological samples by pyrolysis gas chromatography- mass spectrometry
pp.:
428 – 430
Chapter 46. Laser pyrolysis-gas chromatographic-mass spectrometric analysis of epoxy composites
pp.:
430 – 431
Chapter 47. Laser pyrolysis/mass spectrometry of biopolymers
pp.:
431 – 432
Chapter 48. Thermochemistry of polybenzimidazole foams
pp.:
432 – 433
Chapter 49. Theory of thermal decomposition and volatilization of normal alkanes and linear polyethylene
pp.:
433 – 435
Chapter 50. Identification and structural investigation of phenolic resins by a novel set of PGC techniques
pp.:
435 – 436