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Journal of Analytical and Applied Pyrolysis 1992 - 1993: Vol 24 Index PDF

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Preview Journal of Analytical and Applied Pyrolysis 1992 - 1993: Vol 24 Index

Journal of Analytical and Applied Pyrolysis, 24 (1993) 345-346 Elsevier Science Publishers B.V., Amsterdam Author index Arauzo, J., see Bilbao, R., 257 Egsgaard, H., see Christiansen, J.V., 311 Audisio, G. Ehrburger, P. ~, and Bertini, F. ~, Dentzer, J., and Dziedzinl, P. Molecular weight and pyrolysis products dis- Pyrolysis of impregnated carbon adsorbents tribution of polymers. I. Polystyrene, 61 after exposure to cyanide gases, 333 Ekvall, K., see Ostmark, H., 163 Baldo, L., see Lapolla, A., 87 Bergman, H., see Ostmark, H., 163 Favretto, D., see Lapolla, A., 87 Bertini, F., see Audisio, G., 61 Fedele, D., see Lapolla, A., 87 Bilbao, R. Feldthus, A., see Christiansen, J.V., 311 ~, Salvador, M.L., Garcia, P., and Arauzo, J. Feurer, R., see Simon, J., 51 Solid weight loss in the thermal decomposi- tion of cellulose and pine sawdust, 257 Galletti, G.C., see Chiavari, G., 123 Bradna, P. Galletti, G.C. -~, and Zima, J. —, Ward, R.S., Pelter, A., and Goubet, D. Compositional analysis of epoxy matrices of Generation of isobenzofuran derivatives by carbon fibre composites by pyrolysis—gas pyrolysis-gas chromatography/mass _ spec- chromatography/mass spectrometry, 75 trometry, 139 Galletti, G.C., see Chiavari, G., 227 Carlsen, L., see Christiansen, J.V., 311 Galletti, G.C., see Reeves, III, J.B., 243 Cassoux, P., see Laurent, F., 39 Garcia, P., see Bilbao, R., 257 Chiavari, G. Gerhardinger, C., see Lapolla, A., 87 —, and Galletti, G.C. Goubet, D., see Galletti, G.C., 139 Pyrolysis—gas chromatography/mass _ spec- Gu, P. trometry of amino acids, 123 ~, Hessley, R.K., and Pan, W.P. Chiavari, G. Thermal characterization analysis of milk- —, Galletti, G.C., Lanterna, G., and Mazzeo, R. weed floss, 147 The potential of pyrolysis—gas chromatogra- phy/mass spectrometry in the recognition of Hessley, R.K., see Gu, P., 147 ancient painting media, 227 Hirata, F., see Shimasaki, C., 291 Choukroun, R., see Laurent, F., 39 Christiansen, J.V. Ishiwatari, M. —, Feldthus, A., Egsgaard, H., and Carlsen, L. ~, Sakashita, H., Tatsumi, T., and Tominaga, Flash pyrolysis of coal sub-structures ad- H. sorbed on a carbosieve, 311 Thermal decomposition behavior of oil shale Coste, M., see Lede, J., 179 kerogens observed by stepwise pyrolysis—gas Creek, K.E., see Sahota, R.S., 107 chromatography, 273 Crepaldi, G., see Lapolla, A., 87 Curcuruto, O., see Lapolla, A., 87 Jelink, T., see Venema, A., 191 DeLuca, S.J., see Voorhees, K.J., | DeLuca, S.J. Lanterna, G., see Chiavari, G., 227 —, and Voorhees, K.J. Lapolla, A. A comparison of products from an air ~, Gerhardinger, C., Baldo, L., Crepaldi, G., atmosphere tube furnace with a vacuum Fedele, D., Favretto, D., Seraglia, R., Curcu- Curie-point pyrolyzer: implications for ruto, O., and Traldi, P. biodetection, 211 Pyrolysis—gas chromatography/mass_ spec- Dentzer, J., see Ehrburger, P., 333 trometry in the characterization of glycated Dziedzinl, P., see Ehrburger, P. 333 albumin, 87 346 Laurent, F. Simon, J. ~, Zhao, J.S., Valade, L., Choukroun, R., and —, Feurer, R., Reynes, A., and Morancho, R. Cassoux, P. Thermal dissociation of disilane: quadrupole Thermoanalytic studies of the pyrolysis of mass spectrometry investigation, 51 CpTiCl, N(SiMe;), and its use as a precursor Smith, P.B. for the chemical vapor deposition of titanium —, and Snyder, A.P. carbonitride, 39 Characterization of bacteria by oxidative and Léde, J. non-oxidative pyrolysis-gas chromatogra- —, Mercadier, J., Coste, M., and Villermaux, J. phy/ion trap mass spectrometry, 199 Kinetics of triphenylisocyanurate pyrolysis, Smith, P.B. 179 —, and Snyder, A.P. Characterization of bacteria by quartz tube Mazzeo, R., see Chiavari, G., 227 pyrolysisg—a s chromatography/ion trap mass Mercadier, J., see Lede, J., 179 spectrometry, 23 Morancho, R., see Simon, J., 51 Snyder, A.P., see Smith, P.B., 23 Morgan, S.L., see Sahota, R.S., 107 Snyder, A.P., see Smith, P.B., 199 Navale, V. Tatsumi, T., see Ishiwatari, M., 273 The indexing of monoglycerol diether lipids Tominaga, H., see Ishiwatari, M., 273 by flash pyrolysis—gas chromatography, 301 Traldi, P., see Lapolla, A., 87 Noguerola, A., see Voorhees, K.J., 1 Tsukurimichi, E., see Shimasaki, C., 291 Ohta, H., see Shimasaki, C., 291 Urbanova, M. Ostmark, H. -, and Pola, J. ~, Bergman, H., and Ekvall, K. Chemical vapor deposition of polycarbo- Laser pyrolysis of explosives combined with silane by laser-induced decomposition of sila- mass spectral studies of the ignition zone, cyclohexane, 325 163 Valade, L., see Laurent, F., 39 Pan, W.P., see Gu, P., 147 Valcarce, R. Pelter, A., see Galletti, G.C., 139 Software review: UNSCRAMBLER II-EX, Ver- Pola, J., see Urbanova, M., 325 sion 3.42*, 197 Venema, A. Reeves, III, J.B. -, and Jelink, T. —, and Galletti, G.C. A simple method for the introduction of low Use of pyrolysis—gas chromatography/mass molecular weight reference compounds for spectrometry in the study of lignin assays, the determination of retention indices or re- 243 tention time comparison in Curie-point py- Reynes, A., see Simon, J., 51 rolysis studies, 191 Villermaux, J., see Lédé, J., 179 Sahota, R.S. Voorhees, K.J. ~, Morgan, S.L., and Creek, K.E. ~, DeLuca, S.J., and Noguerola, A. A pyrolysis—gas chromatographic/mass spec- Identification of chemical biomarker com- trometric method for measuring the DNA pounds in bacteria and other biomaterials by content of cultured mammalian cells, 107 pyrolysis—tandem mass spectrometry, | Sakashita, H., see Ishiwatari, M., 273 Voorhees, K.J., see DeLuca, S.J., 211 Salvador, M.L., see Bilbao, R., 257 Seraglia, R., see Lapolla, A., 87 Ward, R.S., see Galletti, G.C., 139 Shimasaki, C. , Hirata, F., Ohta, H., Tsukurimichi, E., and Yoshimura, T., see Shimasaki, C., 291 Yoshimura, T. Thermal behavior and mass spectrometry Zhao, J.S., see Laurent, F., 39 studies of 2-oxazolidinone derivatives, 291 Zima, J., see Bradna, P., 75 Journal of Analytical and Applied Pyrolysis, 24 (1993) 347—350 Elsevier Science Publishers B.V., Amsterdam Subject index N-Acetylglucosamine Carbosieve A pyrolysis—gas chromatographic/mass spec- Flash pyrolysis of coal sub-structures ad- trometric method for measuring the DNA sorbed on a carbosieve, 311 content of cultured mammalian cells, 107 Cellulose Advanced glycation products (AGE) Solid weight loss in the thermal decomposi- Pyrolysis—gas chromatography/mass _ spec- tion of cellulose and pine sawdust, 257 trometry in the characterization of glycated Thermal characterization analysis of milk- albumin, 87 weed floss, 147 Air atmosphere tube Charcoals A comparison of products from an air atmo- Pyrolysis of impregnated carbon adsorbents sphere tube furnace with vacuum Curie-point after exposure to cyanide gases, 333 pyrolyzer: implications for biodetection, 211 Chemical vapor deposition a-Amino acids Chemical vapor deposition of polycarbosi- Pyrolysis—gas chromatography/mass _ spec- lane by laser-induced decomposition of sila- trometry of amino acids, 123 cyclohexane, 325 Analysis Thermoanalytic studies of the pyrolysis of Compositional analysis of epoxy matrices of CpTiCl, N(SiMe;), and its use as a precursor carbon fibre composites by pyrolysis—gas for the chemical vapor deposition of titanium chromatography/mass spectrometry, 75 carbonitride, 39 Ancient painting media Coal The potential of pyrolysis—gas chromatogra- Flash pyrolysis of coal sub-structures ad- phy/mass spectrometry in the recognition of sorbed on a carbosieve, 311 ancient painting media, 227 CpTiCl, N(SiMe;), Average zip length Thermoanalytic studies of the pyrolysis of Molecular weight and pyrolysis products dis- CpTiCl, N(SiMe; ), and its use as a precursor tribution of polymers. I. Polystyrene, 61 for the chemical vapor deposition of titanium carbonitride, 39 Bacteria Cu—Cr compounds Characterization of bacteria by oxidative and Pyrolysis of impregnated carbon adsorbents non-oxidative pyrolysis-gas chromatogra- after exposure to cyanide gases, 333 phy/ion trap mass spectrometry, 199 CVD Characterization of bacteria by quartz tube Thermoanalytic studies of the pyrolysis of pyrolysisg—a s chromatography/ion trap mass CpTiCl, N(SiMe;), and its use as a precursor spectrometry, 23 for the chemical vapor deposition of titanium Identification of chemical biomarker com- carbonitride, 39 pounds in bacteria and other biomaterials by Cyanide gases pyrolysis—tandem mass spectrometry, | Pyrolysis of impregnated carbon adsorbents Biodetection after exposure to cyanide gases, 333 A comparison of products from an air Cyclisation atmosphere tube furnace with a vacuum Generation of isobenzofuran derivatives by Curie-point pyrolyzer: implications for pyrolysis—gas chromatography/mass spec- biodetection, 211 trometry, 139 Biomarker compounds Cycloaddition Identification of chemical biomarker com- Generation of isobenzofuran derivatives by pounds in bacteria and other biomaterials by pyrolysis—gas chromatography/mass _ spec- pyrolysis—tandem mass spectrometry, | trometfy, 139 Carbon-fibre composite Compositional analysis of epoxy matrices of Disilane carbon fibre composites by pyrolysis—gas Thermal dissociation of disilane: quadrupole chromatography/mass spectrometry, 75 mass spectrometry investigation, 51 348 DNA Hemicellulose A pyrolysis—gas chromatographic/mass spec- Thermal characterization analysis of milk- trometric method for measuring the DNA weed floss, 147 content of cultured mammalian cells, 107 Hydrocarbons The indexing of monoglycerol diether lipids Epoxy resin by flash pyrolysis—gas chromatography, 301 Compositional analysis of epoxy matrices of carbon fibre composites by pyrolysis—gas Ignition zone chromatography/mass spectrometry, 75 Laser pyrolysis of explosives combined with Explosives mass spectral studies of the ignition zone, 163 Laser pyrolysis of explosives combined with Ion trap mass spectrometry mass spectral studies of the ignition zone, Characterization of bacteria by oxidative and 163 non-oxidative pyrolysis—gas chromatogra- phy/ion trap mass spectrometry, 199 Fibre Characterization of bacteria by quartz tube Use of pyrolysis—gas chromatography/mass pyrolysis—gas chromatography/ion trap mass spectrometry in the study of lignin assays, spectrometry, 23 243 Isobenzofuran Flash pyrolysis Generation of isobenzofuran derivatives by Flash pyrolysis of coal sub-structures ad- pyrolysis—gas chromatography/mass _ spec- sorbed on a carbosieve, 311 trometry, 139 Flash pyrolysisg—a s chromatography The indexing of monoglycerol diether lipids Kinetic study by flash pyrolysis—gas chromatography, 301 Thermal behavior and mass spectrometry Forages studies of 2-oxazolidinone derivatives, 291 Use of pyrolysis—gas chromatography/mass Kinetics spectrometry in the study of lignin assays, 243 Kinetics of triphenylisocyanurate pyrolysis, 179 Gas chromatography A simple method for the introduction of low molecular weight reference compounds for Laser Laser pyrolysis of explosives combined with the determination of retention indices or re- mass spectral studies of the ignition zone, 163 tention time comparison in Curie-point py- Laser-induced decomposition rolysis studies, 191 Chemical vapor deposition of polycarbosilane Characterization of bacteria by oxidative and by laser-induced decomposition of silacyclo- non-oxidative pyrolysis—gas chromatogra- phy/ion trap mass spectrometry, 199 hexane, 325 Characterization of bacteria by quartz tube Lignin pyrolysisg—a s chromatography/ion trap mass Solid weight loss in the thermal decomposi- tion of cellulose and pine sawdust, 257 spectrometry, 23 Compositional analysis of epoxy matrices of Thermal characterization analysis of milk- weed floss, 147 carbon fibre composites by pyrolysis—gas Lignin assays chromatography/mass spectrometry, 75 Molecular weight and pyrolysis products dis- Use of pyrolysis—gas chromatography/mass tribution of polymers. I. Polystyrene, 61 spectrometry in the study ofl ignin assays, 243 LPCVD The potential of pyrolysis—gas chromatogra- phy/mass spectrometry in the recognition of Thermal dissociation of disilane: quadrupole mass spectrometry investigation, 51 ancient painting media, 227 Gas phase Thermal dissociation of disilane: quadrupole Maillard reaction mass spectrometry investigation, 51 Pyrolysis-gas chromatography/mass _ spec- GC/MS trometry in the characterization of glycated Flash pyrolysis of coal sub-structures ad- albumin, 87 sorbed on a carbosieve, 311 Mammalian cells Pyrolysis—gas chromatography/mass _ spec- A pyrolysis—gas chromatographic/mass spec- trometry in the characterization of glycated trometric method for measuring the DNA albumin, 87 content of cultured mammalian cells, 107 349 Mass spectrometry Pyrolysis—gas chromatography/mass _ spec- Compositional analysis of epoxy matrices of trometry of amino acids, 123 carbon fibre composites by pyrolysis—gas Use of pyrolysis—gas chromatography/mass chromatography/mass spectrometry,-75 spectrometry in the study of lignin assays, Laser pyrolysis of explosives combined with 243 mass spectral studies of the ignition zone, 163 Quartz tube pyrolysis The potential of pyrolysis—gas chromatogra- Characterization of bacteria by quartz tube phy/mass spectrometry in the recognition of pyrolysisg—a s chromatography/ion trap mass ancient painting media, 227 spectrometry, 23 Thermal behavior and mass spectrometry studies of 2-oxazolidinone derivatives, 291 RDX Thermal dissociation of disilane: quadrupole Laser pyrolysis of explosives combined with mass spectrometry investigation, 51 mass spectral studies of the ignition zone, Milkweed 163 Thermal characterization analysis of milk- Retention index weed floss, 147 A simple method for the introduction of low Monoglycerol diether lipids molecular weight reference compounds for The indexing of monoglycerol diether lipids the determination of retention indices or re- by flash pyrolysis—gas chromatography, 301 tention time comparison in Curie-point py- rolysis studies, 191 Non-enzymatic glycation Pyrolysis—gas chromatography/mass _ spec- Silacyclohexane trometry in the characterization of glycated Chemical vapor deposition of polycarbosi- albumin, 87 lane by laser-induced decomposition of sila- cyclohexane, 325 Oil shale kerogens Silicon thin films Thermal decomposition behavior of oil shale Thermal dissociation of disilane: quadrupole kerogens observed by stepwise pyrolysis—gas mass spectrometry investigation, 51 chromatography, 273 Simultaneous pyrolysis— methylation 2-Oxazolidinone derivatives The potential of pyrolysis—gas chromatogra- Thermal behavior and mass spectrometry phy/mass spectrometry in the recognition of studies of 2-oxazolidinone derivatives, 291 ancient painting media, 227 Stepwise pyrolysis—gas chromatography Phenylisocyanate Thermal decomposition behavior of oil shale Kinetics of triphenylisocyanurate pyrolysis, kerogens observed by stepwise pyrolysis—gas 179 chromatography, 273 Pine sawdust Solid weight loss in the thermal decomposi- Tandem mass spectrometry tion of cellulose and pine sawdust, 257 Identification of chemical biomarker com- Plug-flow reactor pounds in bacteria and other biomaterials by Kinetics of triphenylisocyanurate pyrolysis, pyrolysis—tandem mass spectrometry, | 179 TG-trap-GC/MS Polycarbosilane Thermal behavior and mass spectrometry Chemical vapor deposition of polycarbosi- studies of 2-oxazolidinone derivatives, 291 lane by laser-induced decomposition of sila- Thermal decomposition cyclohexane, 325 A comparison of products from an air Polystyrene atmosphere tube furnace with a vacuum Molecular weight and pyrolysis products dis- Curie-point pyrolyzer: implications for tribution of polymers. I. Polystyrene, 61 biodetection, 211 Py—GC/MS Solid weight loss in the thermal decomposi- A pyrolysis—gas chromatographic/mass spec- tion of cellulose and pine sawdust, 257 trometric method for measuring the DNA Thermal behavior and mass spectrometry content of cultured mammalian cells, 107 studies of 2-oxazolidinone derivatives, 291 Generation of isobenzofuran derivatives by Thermal decomposition behavior of oil shale pyrolysis—gas chromatography/mass — spec- kerogens observed by stepwise pyrolysis—gas trometry, 139 chromatography, 273 350 Thermal degradation UNSCRAMBLER II-EX Pyrolysis—gas chromatography/mass_ spec- Software review: UNSCRAMBLER II-EX, Ver- trometry of amino acids, 123 sion 3.42*, 197 Titanium carbonitride Vacuum Curie-point pyrolyzer Thermoanalytic studies of the pyrolysis of A comparison of products from an air atmo- CpTiCl, N(SiMe;), and its use as a precursor sphere tube furnace with a vacuum Curie-point for the chemical vapor deposition of titanium pyrolyzer: implications for biodetection, 211 carbonitride, 39 Triphenylisocyanurate Xylan Kinetics of triphenylisocyanurate pyrolysis, Solid weight loss in the thermal decomposi- 179 tion of cellulose and pine sawdust, 257

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