Soft solution processes: application to hybrid nanostructured materials

Roxana M. Piticescu ,  Madalina L. Popescu 

Institute for Non-ferrous and Rare Metals, 102 Biruintei Blvd., Pantelimon 73957, Romania


Hydrothermal procedures are one of the few methods enalbing the synhtesis of new materials in the present age. We will demonstrate the influence of the processing parameters for the synthesis of new hybrid organic-inorganic nanostructured materials with controlled morphology (spheres, whiskers....) using hydrothermal reactions at low temperatures. The applications are related to regeneraive medicine and tissue engineering.


Legal notice
  • Legal notice:

    Copyright (c) Pielaszek Research, all rights reserved.
    The above materials, including auxiliary resources, are subject to Publisher's copyright and the Author(s) intellectual rights. Without limiting Author(s) rights under respective Copyright Transfer Agreement, no part of the above documents may be reproduced without the express written permission of Pielaszek Research, the Publisher. Express permission from the Author(s) is required to use the above materials for academic purposes, such as lectures or scientific presentations.
    In every case, proper references including Author(s) name(s) and URL of this webpage: must be provided.


Related papers
  1. Soft chemical methods integration in developing new scaffolds for tissue engineering
  2. New inorganic-organic hybrid materials with strong chemical bonding
  3. High pressure-low temperature synthesis of new nanostructured compounds  
  4. Mapping dopants effects in the High pressure synthesis of nanostructured zinc oxide
  5. High pressure-low temperature synthesis of new nanostructured compounds
  6. Hydrothermal synthesis of doped oxide nanomaterials: a review
  7. Hydrothermal synhtesis of inorganic/organic hybrid nanomaterials
  8. New routes for the synthesis of Al-doped ZnO transparent nanomaterials
  9. Synthesis of Al-doped ZnO nanomaterials with controlled luminescence properties
  10. Hydrothermal synthesis of nanomaterials: bringing materials closer to life
  11. Biocompatibility of thin films based on hydrothermal synthesized HAp
  12. Hybrid HAp- maleic anhydride copolymer nanocomposites obtained by in situ functionalisation
  13. New hydroxyapatite based nanomaterials for potential use in medical fields

Presentation: Oral at E-MRS Fall Meeting 2006, COST Action D30 Meeting, by Roxana M. Piticescu
See On-line Journal of E-MRS Fall Meeting 2006

Submitted: 2006-07-20 12:18
Revised:   2009-06-07 00:44