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Applied spectroscopy

Analytical Biochemistry Analytical Chemistry Analytical Instrumentation Applied Spectroscopy Reviews Biological Mass Spectrometry... [Pg.453]

P. M. Llewellyn and D. P. Litdejohn, I ittshurgh Conference on A.nalytical Chemistry and Applied Spectroscopy Feb. 1966. [Pg.405]

Vincent Conrad, Ph.D., Group Leader, Technical Services Development Laboratory, CONSOL, Inc. Member, Spectroscopy Society of Pittsburgh, Society for Analytical Chemistry of Pittsburgh, Society for Applied Spectroscopy (Section 27, Energy Resources, Conversion, and Utilization)... [Pg.10]

Fig. 2. ATR spectra obtained as a function of angle of incidence from a polymethylmethacrylate (PMMA) film of thickness 0.5 p,m that was deposited onto a germanium hemi-cylinder. The solid line represents the ATR spectrum of PMMA while the squares represent the film thickness that was recovered from the infrared spectra using four different bands. Reprinted by permission of Society for Applied Spectroscopy from Ref. [4]. Fig. 2. ATR spectra obtained as a function of angle of incidence from a polymethylmethacrylate (PMMA) film of thickness 0.5 p,m that was deposited onto a germanium hemi-cylinder. The solid line represents the ATR spectrum of PMMA while the squares represent the film thickness that was recovered from the infrared spectra using four different bands. Reprinted by permission of Society for Applied Spectroscopy from Ref. [4].
Sociedad Quiniica y Mmera de Chile SA, See SQM (Chile), 150 Society for Mining, Mettalurgy, and Exploration, 272 Society of Albanian Chemists, 255 Society of Applied Spectroscopy (SAS), 272 Society of Chemical hidustry (SCI), 266 Society of Chemists and Teclmologists of Macedonia, 262 Society of Cosmetic Chemists (SCC), 272 Society of Eiivhomiiental Toxicology and Chemistry (SETAC), 256, 258, 272, 279... [Pg.347]

Department of Analytical Chemistry and Applied Spectroscopy, Faculty of Sciences, Free University de Boelelaan 1083, 1081 HV Amsterdam, The Netherlands... [Pg.445]

H. D. Terrell and J. C. Davidson, Pittsburgh Conference on Analytical Chemistry and Applied Spectroscopy, Pittsburgh, Pa., March 1955. [Pg.96]

Fig. 9-10. Top-view schematic diagram of the Applied Research Laboratories Production X-ray Quantometer (PXQ). (a) Dual unit 22 dispersive channels (max), 1 nondispersive standard channel, (b) Single unit 12 dispersive channels (max), 1 nondispersive standard channel. (Courtesy of Davidson, Gilkerson, and Kemp, Pittsburgh Conference on Analytical Chemistry and Applied Spectroscopy, March 1958.)... Fig. 9-10. Top-view schematic diagram of the Applied Research Laboratories Production X-ray Quantometer (PXQ). (a) Dual unit 22 dispersive channels (max), 1 nondispersive standard channel, (b) Single unit 12 dispersive channels (max), 1 nondispersive standard channel. (Courtesy of Davidson, Gilkerson, and Kemp, Pittsburgh Conference on Analytical Chemistry and Applied Spectroscopy, March 1958.)...
Leary JJ, Brookes AE, Dorrzape AF Jr, Golightly DW 1982) An objective function for optimization techniques in simultaneous multiple-element analysis by inductively coupled plasma spectrometry. Applied Spectroscopy 36 37-40. [Pg.232]

J. Workman and A.W. Springsteen (eds), Applied Spectroscopy. A Compact Reference for Practitioners, Academic Press, San Diego, CA (1998). [Pg.343]

Figure 6.7 Ammonia DCI mass spectrum of an LDPE extract. After Chen and Her [23]. From S.W. Chen and G.R. Her, Applied Spectroscopy, 47, 844-851 (1993). Reproduced by permission of the Society of Applied Spectroscopy... Figure 6.7 Ammonia DCI mass spectrum of an LDPE extract. After Chen and Her [23]. From S.W. Chen and G.R. Her, Applied Spectroscopy, 47, 844-851 (1993). Reproduced by permission of the Society of Applied Spectroscopy...
Figure 7.37 Comparison of spectra of different TLC plates (a) silica gel (b) cellulose and (c) polyamide 11. After Everall et al. [779]. From N.J. Everall et al., Applied Spectroscopy, 46, 597-601 (1992). Reproduced by permission of the Society for Applied Spectroscopy... Figure 7.37 Comparison of spectra of different TLC plates (a) silica gel (b) cellulose and (c) polyamide 11. After Everall et al. [779]. From N.J. Everall et al., Applied Spectroscopy, 46, 597-601 (1992). Reproduced by permission of the Society for Applied Spectroscopy...
Figure 7.43 General conceptual scheme to obtain a 2D correlation spectrum by inducing selective time-dependent spectral variations with an external perturbation (mechanical, electrical, chemical, magnetic, optical, thermal, etc.). After Noda [1006]. From I. Noda, Applied Spectroscopy, 44, 550-561 (1990). Reproduced by permission of the Society for Applied Spectroscopy... Figure 7.43 General conceptual scheme to obtain a 2D correlation spectrum by inducing selective time-dependent spectral variations with an external perturbation (mechanical, electrical, chemical, magnetic, optical, thermal, etc.). After Noda [1006]. From I. Noda, Applied Spectroscopy, 44, 550-561 (1990). Reproduced by permission of the Society for Applied Spectroscopy...
Figure 1 Principle of confocal Raman microscopy A laser spot in the focal plane passes through the pinhole P. A laser spot at a distance z from the focal plane is projected in the image plane with size P, and is largely blocked by the pinhole P. [L — lens M = beam splitter fi, f2 = focal length of lens L, and L2, respectively b2 — image distance of out-of-focus laser spot). Reproduced from Tabaksblat et al. [14], with permission of the Society for Applied Spectroscopy. 2000. Figure 1 Principle of confocal Raman microscopy A laser spot in the focal plane passes through the pinhole P. A laser spot at a distance z from the focal plane is projected in the image plane with size P, and is largely blocked by the pinhole P. [L — lens M = beam splitter fi, f2 = focal length of lens L, and L2, respectively b2 — image distance of out-of-focus laser spot). Reproduced from Tabaksblat et al. [14], with permission of the Society for Applied Spectroscopy. 2000.
Figure 17 Comparison of XPS (left) and FT-IR PVC images for two different PVC/PMMA blends with constant PVC molecular weight and PMMA molecular weight 75 kDa (a) and 838.3 kDa (b), respectively. Reproduced from Artyushkova et al. [93], with permission of the Society for Applied Spectroscopy. 2000. Figure 17 Comparison of XPS (left) and FT-IR PVC images for two different PVC/PMMA blends with constant PVC molecular weight and PMMA molecular weight 75 kDa (a) and 838.3 kDa (b), respectively. Reproduced from Artyushkova et al. [93], with permission of the Society for Applied Spectroscopy. 2000.
Figure 1 Left illustration of the application of a mask to produce different samples . Right FT-IR images of the carbonyl band of poly(vinyl cinnamate), showing different levels of crosslink density as revealed from a decrease in conjugated carbonyls. Reproduced from Rafferty et al. [9], Copyright 2002, with permission from the Society for Applied Spectroscopy. Figure 1 Left illustration of the application of a mask to produce different samples . Right FT-IR images of the carbonyl band of poly(vinyl cinnamate), showing different levels of crosslink density as revealed from a decrease in conjugated carbonyls. Reproduced from Rafferty et al. [9], Copyright 2002, with permission from the Society for Applied Spectroscopy.
Cahn, F. and S. Compton, Multivariate Calibration of Infrared Spectra for Quantitative Analysis Using Designed Experiments , Applied Spectroscopy, 42 865-872 (July, 1988). [Pg.147]

We can also report that work similar to that in the first few chapters of this noise subseries has been reported in Applied Spectroscopy [12]. This paper derives the expressions for the constant-detector-noise case using a calculus-based approach rather than the algebraic approach used in these chapters [2, 3], It also includes experimental data that verifies the correctness of the theoretical development reported in these chapters. [Pg.317]

See other pages where Applied spectroscopy is mentioned: [Pg.1282]    [Pg.455]    [Pg.1827]    [Pg.272]    [Pg.1038]    [Pg.27]    [Pg.815]    [Pg.45]    [Pg.333]    [Pg.187]    [Pg.187]    [Pg.157]    [Pg.157]    [Pg.226]    [Pg.226]    [Pg.233]    [Pg.321]    [Pg.426]    [Pg.463]    [Pg.469]    [Pg.501]   
See also in sourсe #XX -- [ Pg.317 , Pg.463 ]



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