Quantitative mineral analysis using Raman spectroscopy and chemometric techniques

Near-infrared (785 nm) excitation was used to obtain Raman spectra from a series of 33 solid mixtures containing cocaine, caffeine and glucose (9.8-80.6% by weight cocaine), which were then analysed using chemometric methods. Principal component analysis of the data was employed to ascertain what fa

Compared with other spectroscopic techniques, Raman spectroscopy has not generally been applied to problems of quantitative analysis, primarily because it is assumed that spectral irreproducibility due to source, sample or optical parameters requires standardization of the Raman signal. However, a c

## Abstract The objective was to determine absolute molar concentration of adhesive resin components in the hybrid layer by establishing methods based on Raman spectroscopy fundamentals. The hybrid layer was treated as a three‐component system consisting of collagen and an adhesive resin containing

## Abstract __The applicability of a UV micro‐Raman setup was assessed for the rapid identification of fibrous asbestos minerals using 257 and 244 nm laser light for excitation. Raman spectra were obtained from six asbestos reference standards belonging to two basic structural groups: the serpentin

Raman spectroscopy using a laser microprobe (also called micro-Raman) is becoming more widely used to study stress distribution in solids, particularly in micro-electronic device structures, because of its potential for high spatial resolution. Typically the diameter of the focused laser beam is 1 µ