Thermodynamics of Calcite Growth: Baseline for Understanding Biomineral Formation
- 23 October 1998
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 282 (5389) , 724-727
- https://doi.org/10.1126/science.282.5389.724
Abstract
The complexity of biomineralized structures suggests the potential of organic constituents for controlling energetic factors during crystal synthesis. Atomic force microscopy was used to investigate the thermodynamic controls on carbonate growth and to measure the dependence of step speed on step length and the dependence of critical step length on supersaturation in precisely controlled solutions. These data were used to test the classic Gibbs-Thomson relationship and provided the step edge free energies and free energy barriers to one-dimension nucleation for calcite. Addition of aspartic acid, a common component in biomineralizing systems, dramatically affected growth morphology and altered the magnitude of the surface energy.Keywords
This publication has 11 references indexed in Scilit:
- Relationship between surface structure, growth mechanism, and trace element incorporation in calcitePublished by Elsevier ,2002
- An in-situ AFM investigation of canavalin crystallization kineticsSurface Science, 1997
- Modification of calcite crystal growth by abalone shell proteins: an atomic force microscope studyBiophysical Journal, 1997
- Control of crystal phase switching and orientation by soluble mollusc-shell proteinsNature, 1996
- Molecular tectonics in biomineralization and biomimetic materials chemistryNature, 1993
- Crystallization at Inorganic-organic Interfaces: Biominerals and Biomimetic SynthesisScience, 1993
- Inhibition of Calcium Carbonate and Phosphate Crystallization by Peptides Enriched in Aspartic Acid and PhosphoserinePublished by American Chemical Society (ACS) ,1991
- Interactions of sea-urchin skeleton macromolecules with growing calcite crystals— a study of intracrystalline proteinsNature, 1988
- The solubility of calcite and aragonite in seawater at various salinities, temperatures, and one atmosphere total pressureAmerican Journal of Science, 1983
- The growth of crystals and the equilibrium structure of their surfacesPhilosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences, 1951