Near-Infrared Spectroscopy: Principles, Instruments, ApplicationsHeinz W. Siesler, Yukihiro Ozaki, Satoshi Kawata, H. Michael Heise Over the last few years, near-infrared (NIR) spectroscopy has rapidly developed into an important and extremely useful method of analysis. In fact, for certain research areas and applications, ranging from material science via chemistry to life sciences, it has become an indispensable tool because this fast and cost-effective type of spectroscopy provides qualitative and quantitative information not available from any other technique. This book offers a balanced overview of the fundamental theory and instrumentation of NIR spectroscopy, introducing the material in a readily comprehensible manner. A considerable part of the text is dedicated to practical applications, including sample preparation and investigations of polymers, textiles, drugs, food and animal feed. However, special topics, such as two-dimensional correlation analysis, are also covered in separate chapters. Written by eight experts in different fields, this book presents an introduction to the current state of developments and is valuable to spectroscopists and to practitioners applying NIR spectroscopy as a daily analytical tool. |
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2D correlation absorbance absorption bands algorithm Anal analysis analytical anharmonicity Appl applications beam Biomed blood Bragg diffraction calibration models cell Chem chemical Chemom chemometric cm_1 coefficient combination bands component concentration correlation spectroscopy detector deuteration diffraction grating diffuse diffuse-reflection example excitation fibre field film filter first overtone Fourier Fourier-transform spectroscopy frequency FT-Raman function glucose H. W. SIESLER haemoglobin hydrogen bonds influence Infrared Spectroscopy intensity interferogram interferometer laser light source matrix measurements method mid-infrared mode molecules monitoring multichannel multivariate near-infrared spectroscopy near-IR NIR region NIR spectra NIR spectroscopy NODA noninvasive obtained oleyl alcohol optical OZAKI parameters peaks Phys polarisation polymer prediction probe protein pulsed radiation Raman scattering Raman spectroscopy range reflection regression sample second overtone shown in Fig signal spec specific spectrometer spectrophotometer spectrum stretching synchronous technique temperature tion tissue transmission variables vector vibrational vibrational spectroscopy wavelength wavenumber