A Novel, Bioclastic Route to Self-Assembled, 3D, Chemically-Tailored Meso/Nanostructures: Shape preserving Reactive Conversion of Biosilica (Diatom) Microshells.

Sandhage, K. H., Dickerson, M. B., Huseman, P. M., Caranna, M. A., Clifton, J. D., Bull, T. A., Heibel, T. J., Overton, W. R. and Schoenwaelder, M. E. A. ;

Contact

moschoenwaelder [ at ] awi-bremerhaven.de

Abstract

Item Type

Article

Authors

Sandhage, K. H., Dickerson, M. B., Huseman, P. M., Caranna, M. A., Clifton, J. D., Bull, T. A., Heibel, T. J., Overton, W. R. and Schoenwaelder, M. E. A. ;

Divisions

AWI Organizations > Climate Sciences > (deprecated) Junior Research Group: Phytooptics

Programs

Basic Research > Helmholtz Independent Research

Publication Status

Published

Eprint ID

5018

Cite as

Sandhage, K. H. , Dickerson, M. B. , Huseman, P. M. , Caranna, M. A. , Clifton, J. D. , Bull, T. A. , Heibel, T. J. , Overton, W. R. and Schoenwaelder, M. E. A. (2002): A Novel, Bioclastic Route to Self-Assembled, 3D, Chemically-Tailored Meso/Nanostructures: Shape preserving Reactive Conversion of Biosilica (Diatom) Microshells. , Advanced Materials, 14 , pp. 429-433 .

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