Observation of Recovery and Recrystallization in High-Purity Aluminum Measured with Forward Modeling Analysis of High-Energy Diffraction Microscopy

Publication Information:

Lupoi, J.S. and E.A. Smith, “Characterization of Woody and Herbaceous Biomass’ Polysaccharide and Lignin Composition with 1064 nm Dispersive Multichannel Raman Spectroscopy”, Appl Spectrosc., Vol. 66(8), pp. 903-910, 2012. DOI: 10.1366/12-06621.

Year: 2012

Biomass representing different classes of bioenergy feedstocks, including woody and herbaceous species, was measured with 1064 nm Raman spectroscopy. Pine, oak, poplar, kenaf, miscanthus, pampas grass, switchgrass, alfalfa, orchard grass, and red clover were included in this study. Spectral differences have been identified with an emphasis on lignin guaiacyl and syringyl monomer content and carotenoid compounds. The interpretation of the Raman spectra was correlated with (13)C-nuclear magnetic resonance cross-polarization/magic-angle spinning spectra of select biomass samples. Thioacidolysis quantification of guaiacyl and syringyl monomer composition and the library of Raman spectra were used as a training set to develop a principal component analysis model for classifying plant samples and a principal component regression model for quantifying lignin guaiacyl and syringyl composition. Raman spectroscopy with 1064 nm excitation offers advantages over alternative techniques for biomass characterization, including low spectral backgrounds, higher spectral resolution, short analysis times, and nondestructive analyses.


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