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FT-IR spectroscopic imaging

Kazarian, S.G. and Chan, K.LA. (2006) Application of ATR-FT-IR spectroscopic imaging to biomedical samples. Biochim. Biophys. Acta, 1758, 858-67. [Pg.145]

A three-dimensional multivariate image processing technique for the analysis of FT-IR spectroscopic images of multiple tissue section. BMC Med. Imaging, 6, 12. [Pg.146]

Lasch, P. (2005) CytoSpec 1.2-an Application for FT-IR Spectroscopic imaging see http //www.cytospec.com (accessed 27 November 2008). [Pg.220]

Observation of a Penetration Depth Gradient in ATR FT-IR Spectroscopic Imaging Applications... [Pg.306]

The above-discussed examples demonstrate that FT-IR spectroscopic imaging can be applied in a multiplicity of applications for the characterization of polymers. [Pg.334]

Fig. 24 IR spectra of poly(vinyl pyrrolidone) and poly(vinyl methyl ether). The gray areas indicate the spectral ranges which were used to calculate the contrast of the FT-IR spectroscopic images in Fig. 23... Fig. 24 IR spectra of poly(vinyl pyrrolidone) and poly(vinyl methyl ether). The gray areas indicate the spectral ranges which were used to calculate the contrast of the FT-IR spectroscopic images in Fig. 23...
C. Marcott, R. C. Reeder, J. A. Sweat, D. D. Panzer, D. L. Wetzel. FT-IR spectroscopic imaging microsocopy of wheat kernels using a mercury-cadmium-telluride focal-plane array detector. Vibrat Spectrosc 19 123-129, 1999. [Pg.132]

FT-IR spectroscopic imaging microscopy of wheat kernels using a Mercury-Cadmium-Telluride focal-plane array detector. Vib. Spectrosc., 19 (1),... [Pg.285]

It was demonstrated that concentration profiles of different components can be obtained utilizing the partial least squares method. With concentration profiles readily measurable, it is possible to obtain other quantities such as diffusion type, that is, Fickian versus non-Fickian mechanism of diffusion. The application of in situ ATR FT-IR spectroscopic imaging has been employed to investigate polymer interdiffusion of PVP and polyfethylene glycol) (PEG) under high pressure CO2 [74]. The diffusion mechanism of the system was described based on the spectroscopic imaging data, and it was found that CO2 molecules dissolved in the polymeric system greatly enhanced the interdiffusion process. [Pg.409]

Chan, K.L.A. et al. (2010) Rapid prototyping of microfluidic devices for integrating with FT-IR spectroscopic imaging. Lab Chip, 10 (16), 2170-2174. [Pg.439]

Chan, K.L.A. and Kazarian, S.G. (2013) Correcting the effect of refraction and dispersion of light in FT-IR spectroscopic imaging in transmission through thick infrared windows. Arud. Chem., 85 (2), 1029-1036. [Pg.443]

FT-IR spectroscopic imaging of reactions in multiphase flow in microfluidic channels. Anal Chem., 84 (9), 4052-4056. [Pg.443]

Chan KLA, Niu X, deMeUo AJ, Kazarian SG. Generation of chemical movies FT-IR spectroscopic imaging of segmented flows. Anal Chem 2011 83 3606-3609. [Pg.130]

See other pages where FT-IR spectroscopic imaging is mentioned: [Pg.266]    [Pg.11]    [Pg.333]    [Pg.335]    [Pg.347]    [Pg.347]    [Pg.348]    [Pg.357]    [Pg.357]    [Pg.364]    [Pg.367]    [Pg.368]    [Pg.123]    [Pg.377]    [Pg.378]    [Pg.387]    [Pg.389]    [Pg.391]    [Pg.397]    [Pg.397]    [Pg.399]    [Pg.409]    [Pg.417]    [Pg.432]    [Pg.251]   


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