Algal polysaccharide capsule-templated growth of magnetic nanoparticles
- 31 March 2005
- journal article
- research article
- Published by Royal Society of Chemistry (RSC) in New Journal of Chemistry
- Vol. 29 (5), 681-685
- https://doi.org/10.1039/b419063g
Abstract
Polysaccharidic alginate biopolymers have been used as templates for the controlled growth of magnetic nanoparticles. Ni2+ and Co2+ can used to form alginate gels as spherical capsules. UV-visible absorption spectroscopy allowed the investigation of the environment of the metal ions within the biopolymer network. Reduction under flowing H2/N2 led to the formation of Co and Ni nanoparticles as well as CoNi nanoalloys. Even at 350 °C, the organic matrix was partially preserved. XRD, TEM and XPS analyses were used to characterize particle structure, size and morphology. SQUID measurements indicated that all particles were ferromagnetic at 2 K. This work suggests that alginate provides a well-defined, chemically and thermally stable environment for the formation of nanoparticles, leading to magnetic nanocomposites.Keywords
This publication has 48 references indexed in Scilit:
- Facile In Situ Synthesis of Noble Metal Nanoparticles in Porous Cellulose FibersChemistry of Materials, 2003
- Molecular biomimetics: nanotechnology through biologyNature Materials, 2003
- Linear assemblies of nanoparticles electrostatically organized on DNA scaffoldsNature Materials, 2003
- NANOSTRUCTURE OF THE DIATOM FRUSTULE AS REVEALED BY ATOMIC FORCE AND SCANNING ELECTRON MICROSCOPYJournal of Phycology, 2001
- Programming the Assembly of Two- and Three-Dimensional Architectures with DNA and Nanoscale Inorganic Building Blocks,Inorganic Chemistry, 2000
- Critical Transitions in the Biofabrication of Abalone Shells and Flat PearlsChemistry of Materials, 1996
- Physico-chemical properties of alginate gel beadsPolymer Gels and Networks, 1995
- Factors affecting densities, distribution and growth patterns of cells inside immobilization supportsFEMS Microbiology Reviews, 1994
- Alginate polyelecrtolyte ionotropic gels. Part IX: Diffusion control effects on the relaxation time of sol-gel transformation for transition-divalent metal alginate ionotropic gel complexesColloid and Polymer Science, 1992
- Biological interactions between polysaccharides and divalent cations: The egg‐box modelFEBS Letters, 1973