Biomimetic Arrays of Oriented Helical ZnO Nanorods and Columns
- 9 October 2002
- journal article
- research article
- Published by American Chemical Society (ACS) in Journal of the American Chemical Society
- Vol. 124 (44), 12954-12955
- https://doi.org/10.1021/ja0279545
Abstract
Extended helical or chiral nanostructures are usually associated with biomolecules but are mostly absent in synthetic materials. Here we report the first synthesis of unusual oriented and extended helical nanostructures in synthetic ceramics. Large arrays of oriented helical ZnO nanorods and columns are formed using simple citrate ions to control the growth habits of the ZnO crystal. This novel mechanism could lead to new approaches to control the orientation, the surface area, and the defect structure of synthetic materials that are critical for practical applications. The morphology generated in the helical ZnO nanostructure shows remarkable resemblance to the growth morphology of nacreous calcium carbonate and thus may shed new light on morphology and orientation control of biominerals.This publication has 6 references indexed in Scilit:
- Evidence for fault weakness and fluid flow within an active low-angle normal faultNature, 2001
- Calcium carbonate films and helices grown in solutions of poly(aspartate)Journal of Crystal Growth, 1998
- Control Over Aragonite Crystal Nucleation and Growth: An In Vitro Study of BiomineralizationChemistry – A European Journal, 1998
- Does Abalone Nacre Form by Heteroepitaxial Nucleation or by Growth through Mineral Bridges?Chemistry of Materials, 1997
- Ceramic Thin-Film Formation on Functionalized Interfaces Through Biomimetic ProcessingScience, 1994
- Evolution of BiomineralizationPublished by Oxford University Press (OUP) ,1989