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dr Robert R. Piticescu

e-mail:
phone: +40-21-3522046
fax: +40-21-3522048
web: http://www.imnr.ro/avanmat
interest(s): syhtesis of nanomaterials, electronic ceramics, thermodynamic and kinetic modelling, technology transfer

Affiliation:


Institute for Non-ferrous and Rare Metals

address: 102 Biruintei Blvd., Pantelimon, 73957, Romania
phone: 0040-21-2557488
fax: 0040-1-2552692
web: http://www.imnr.ro

Participant:


E-MRS Fall Meeting 2002

began: 2002-09-15
ended: 2002-09-19
Presented:

Participant:


E-MRS Fall Meeting 2003

began: 2003-09-15
ended: 2003-09-11
Presented:

E-MRS Fall Meeting 2003

Zirconia pressure sensors: from nanopowders to device

Participant:


E-MRS Fall Meeting 2004

began: 2004-09-06
ended: 2004-09-10
Presented:

E-MRS Fall Meeting 2004

HYDROTHERMAL SYNTHESIS OF NANOSTRUCTURED ZIRCONIA MATERIALS: PRESENT STATE AND FUTURE PROSPECTS

E-MRS Fall Meeting 2004

Hydrothermal synthesis of nanomaterials: bringing materials closer to life

Participant:


E-MRS Fall Meeting 2005

began: 2005-09-05
ended: 2005-09-09
Presented:

E-MRS Fall Meeting 2005

Synthesis of Al-doped ZnO nanomaterials with controlled luminescence properties


Participant:


COST action D30 Mid term evaluation meeting

began: 2006-02-17
ended: 2006-02-18
Presented:

COST action D30 Mid term evaluation meeting

Hydrothermal synthesis: opportunities for technology transfer in advanced materials

Participant:


COST D30 Final Evaluation Meeting

began: 2007-10-26
ended: 2007-10-27
Presented:

COST D30 Final Evaluation Meeting

Synthesis of Al doped ZnO nanopowders and their enhanced luminescence

Participant:


E-MRS Fall Meeting 2008

began: 2008-09-15
ended: 2008-09-19
Presented:

E-MRS Fall Meeting 2008

Novel synthesis methods of Co-doped ZnO Nanopowders

Publications:


  1. Cathodoluminescence of Al doped ZnO nanopowders
  2. Combining microwave and pressure techniques for hydrothermal synthesis of ZnO and ZrO2 nanopowders doped with a range of metal ions
  3. High pressure-low temperature synthesis of new nanostructured compounds
  4. High pressure-low temperature synthesis of new nanostructured compounds  
  5. Hydrothermal synthesis of doped oxide nanomaterials: a review
  6. Hydrothermal synthesis of nanomaterials: bringing materials closer to life
  7. HYDROTHERMAL SYNTHESIS OF NANOSTRUCTURED ZIRCONIA MATERIALS: PRESENT STATE AND FUTURE PROSPECTS
  8. Hydrothermal synthesis: opportunities for technology transfer in advanced materials
  9. Luminescence properties of zinc oxide nanopowders doped with Al ions obtained by the hydrothermal and vapour condensation methods.
  10. Mapping dopants effects in the High pressure synthesis of nanostructured zinc oxide
  11. Microstructural analysis of ZnO powders with different concentrations of Al dopant obtained by means of hydrothermal synthesis
  12. Modelling Hydrothermal Synthesis of Ceramic Composite Nanomaterials
  13. Morphology of Al doped zinc oxide obtained by the vapour condensation method
  14. Morphology of Al-Doped Zinc Oxide Obtained by the Vapour Condensation Methods
  15. Morphology of Al doped Zinc Oxide Obtained using Hydrothermal and Vapour Condensation Methods
  16. Novel synthesis methods of Co-doped ZnO Nanopowders
  17. New routes for the synthesis of Al-doped ZnO transparent nanomaterials

  18. Synthesis of Al-doped ZnO nanomaterials with controlled luminescence properties

  19. Synthesis of Al doped ZnO nanopowders and their enhanced luminescence
  20. Synthesis of doped ZnO nanopowders in microwave hydrothermal reactors
  21. Zirconia-based nanomaterials for oxygen sensor - generation, characterisation and optical properties
  22. Zirconia pressure sensors: from nanopowders to device



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