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FTIR Nanospectroscopy Shows Molecular Structures of Plant Biominerals and Cell Walls

Victor M. R. Zancajo, Tom Lindtner, Max Eisele, Andreas Huber, Rivka Elbaum, Janina Kneipp

2020Analytical Chemistry28 citationsDOI

Abstract

Plant tissues are complex composite structures of organic and inorganic components whose function relies on molecular heterogeneity at the nanometer scale. Scattering-type near-field optical microscopy (s-SNOM) in the mid-infrared (IR) region is used here to collect IR nanospectra from both fixed and native plant samples. We compared structures of chemically extracted silica bodies (phytoliths) to silicified and nonsilicified cell walls prepared as a flat block of epoxy-embedded awns of wheat (Triticum turgidum), thin sections of native epidermis cells from sorghum (Sorghum bicolor) comprising silica phytoliths, and isolated cells from awns of oats (Avena sterilis). The correlation of the scanning-probe IR images and the mechanical phase image enables a combined probing of mechanical material properties together with the chemical composition and structure of both the cell walls and the phytolith structures. The data reveal a structural heterogeneity of the different silica bodies in situ, as well as different compositions and crystallinities of cell wall components. In conclusion, IR nanospectroscopy is suggested as an ideal tool for studies of native plant materials of varied origins and preparations and could be applied to other inorganic–organic hybrid materials.

Topics & Concepts

ChemistryCell wallPhytolithChemical engineeringBotanyEngineeringBiologyBiochemistryPollenSilicon Effects in AgricultureClay minerals and soil interactionsSoil Management and Crop Yield
FTIR Nanospectroscopy Shows Molecular Structures of Plant Biominerals and Cell Walls | Litcius