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prof Paweł J. Kulesza

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Affiliation:


University of Warsaw, Department of Chemistry

address: Pasteura 1, Warsaw, Warszawa, 02-093, Poland
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Participant:


SMCBS 2003 Workshop

began: 2003-11-13
ended: 2003-11-16
Presented:

SMCBS 2003 Workshop

Network Films of Conducting Polymer Linked and Polymeatallate Stabilized Platinum Nanoparticles

Participant:


SMCBS'2005 Workshop

began: 2005-11-06
ended: 2005-11-10
Presented:

SMCBS'2005 Workshop

New strategies in the electroctalytic reduction of oxygen for fuel and biofuel cells

Participant:


E-MRS Fall Meeting 2006

began: 2006-09-04
ended: 2006-09-08
Presented:

E-MRS Fall Meeting 2006

Electrocatalysis and bioelectrocatalysis and nanostructured composite films

Participant:


E-MRS Fall Meeting 2007

began: 2007-09-17
ended: 2007-11-30
Presented:

Participant:


SMCBS'2007 International Workshop

began: 2007-11-04
ended: 2007-11-10
Presented:

SMCBS'2007 International Workshop

Electrocatalysis and Bioelectrocatalysis at Network Films of Metal Nanoparticles and Carbon Nanostructures

Participant:


SMCBS'2009 International Workshop

began: 2009-11-06
ended: 2009-11-10
Presented:

SMCBS'2009 International Workshop

Development of novel bioelectrocatalytic systems through controlled combination of multiwalled carbon nanotubes, redox mediators and enzymes

Participant:


SMCBS'2011 International Workshop

began: 2011-11-04
ended: 2011-11-08
Presented:

SMCBS'2011 International Workshop

Development of multifunctional bioelectrocatalytic films for oxidation of ethanol   

Publications:


  1. Activation of Methanol-Tolerant Carbon-Supported RuSex Electrocatalytic Nanoparticles Towards More Efficient Oxygen Reduction
  2. Application of Inorganic Redox - Conducting Solids As Charge Relays in Dye-Sensitized Solar Cell
  3. Bi-functional electrocatalytic systems for oxygen reduction in acid medium
  4. Bioelectrocatalytic dioxygen reduction at carbon nanotubes – silicate composite film modified electrode
  5. Development and characterization of bioelectrocatalytic systems for oxygen reduction
  6. Development of electrocatalytic materials based on the mixed addenda Dawson heteropolyanion and conducting polymers
  7. Development of multifunctional bioelectrocatalytic films for oxidation of ethanol   
  8. Development of novel bioelectrocatalytic systems through controlled combination of multiwalled carbon nanotubes, redox mediators and enzymes
  9. Electrocatalysis and bioelectrocatalysis and nanostructured composite films
  10. Electrocatalysis and Bioelectrocatalysis at Network Films of Metal Nanoparticles and Carbon Nanostructures
  11. Electrochemical charging of carbon nanotubes modified with polyoxometallates monolayers
  12. Enzymatic carbon nanotube based composite electrodes for dioxygen reduction
  13. Incorporation of RuSex/C within nanostructural Ir matrices to enhance oxygen reduction
  14. Integrated carbon nanotube based mediating systems for bioelectrocatalysis: application to oxygen reduction and glucose oxidation
  15. Multifunctional bio-electrocatalytic systems for reduction of oxygen and hydrogen peroxide
  16. Network Films of Conducting Polymer Linked and Polymeatallate Stabilized Platinum Nanoparticles
  17. New strategies in the electroctalytic reduction of oxygen for fuel and biofuel cells
  18. Oxidation of glucose at nanostructured composite bioelectrocatalytic systems
  19. Polyoxometallate-modified conducting polymer linked Pt nanoparticles as bifunctional electrocatalysts for bromate reduction
  20. Preparation of copper hexacyanoferrate multilayer films modified with 4-(Pyrrole-1-yl) benzoic acid on glassy carbon electrode.



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