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Silica–Biomacromolecule Interactions: Toward a Mechanistic Understanding of Silicification

Christina A. McCutchin, Kevin J. Edgar, Chun‐Long Chen, Patricia M. Dove

2024Biomacromolecules22 citationsDOIOpen Access PDF

Abstract

Silica-organic composites are receiving renewed attention for their versatility and environmentally benign compositions. Of particular interest is how macromolecules interact with aqueous silica to produce functional materials that confer remarkable physical properties to living organisms. This Review first examines silicification in organisms and the biomacromolecule properties proposed to modulate these reactions. We then highlight findings from silicification studies organized by major classes of biomacromolecules. Most investigations are qualitative, using disparate experimental and analytical methods and minimally characterized materials. Many findings are contradictory and, altogether, demonstrate that a consistent picture of biomacromolecule-Si interactions has not emerged. However, the collective evidence shows that functional groups, rather than molecular classes, are key to understanding macromolecule controls on mineralization. With recent advances in biopolymer chemistry, there are new opportunities for hypothesis-based studies that use quantitative experimental methods to decipher how macromolecule functional group chemistry and configuration influence thermodynamic and kinetic barriers to silicification. Harnessing the principles of silica-macromolecule interactions holds promise for biocomposites with specialized applications from biomedical and clean energy industries to other material-dependent industries.

Topics & Concepts

MacromoleculeBiopolymerNanotechnologyChemistryPolymerMaterials scienceOrganic chemistryBiochemistryDiatoms and Algae ResearchPaleontology and Stratigraphy of FossilsMicrobial Fuel Cells and Bioremediation
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