The fuel cell materials center will be held on 12th February.
The speaker of our seminar is Professor Vladimir Matolin (Charles University, Czech Republic).

His talk detail is as follows;
Date:February 12th, Thursday
Time: 11am-12pm
Venue: Small seminar room, 3rd floor, Central Bldg, Sengen site
speaker: Professor Vladimir Matolin (Charles University)
http://physics.mff.cuni.cz/kevf/povrchy/
title: New anode material for hydrogen PEM fuel cell: Pt - cerium oxide composite thin films deposited on DWCNT

ABSTRACT

Cerium oxide is an attractive material widely used in nowadays technologies. The most important are its well-established catalytic, electronic and optical applications. Ceria-based catalysts are successfully used in commercially produced catalytic converters for CO oxidation and NO reduction, and show significant activity in hydrocarbon reforming. Proton exchange membrane fuel cells (PEMFC) are being developed as an efficient power source for portable systems applications. Recently, anode property of Pt-(Sn)CeO2/carbon has been investigated for development of methanol and hydrogen fed PEMFC.
30 nm thick Pt(Sn) doped CeO2 layers were deposited by rf-magnetron sputtering on double wall carbon nanotube (DWCNT) diffusion layers of a miniaturized polymer membrane fuel cell by using a composite CeO2 – Pt(Sn) target. Hydrogen/air fuel cell activity measurements normalized to the amount of used Pt revealed specific power of 300 W/mg(Pt) relative to 0.1 W/mg obtained for a standard PtRu anode. The layer composition was investigated by the laboratory XPS, synchrotron radiation soft X-ray (SX PES at synchrotron Elettra in Italy), hard X-ray photoemission spectra (HX PES at SPring8 in Japan), SEM and HRTEM.
Cerium 4f level occupation determines the properties of cerium oxide based catalysts in a significant way. Synchrotrons provide tunable photon energy that is used for synchrotron radiation photoelectron spectroscopy. The Ce 4f level of cerium oxide was efficiently investigated with the use of soft-X ray resonant photoelectron spectroscopy in the Ce 4d – 4f photoabsorption region. An interaction of ceria with Pt led to a partial Ce4+ → Ce3+ transition that was observed as a resonance enhancement of the Ce 4f photoemission intensity. The ratio of resonance enhancement of Ce photoemission intensity was used to monitor Ce3+ and Ce4+ state occupation.
Hard X ray photoemission spectroscopy (6 keV) had a high observation depth about 7 nm. Depth resolved measurements, by varying the emission angle or photon energy (SX PES and HX PES), gave information about depth resolved concentration of Pt0, Pt2+ and Pt4+ species, respectively. We showed a formation of cerium oxide with completely ionized species Pt2+, 4+ embedded in the film. Small amount of Pt0 was present on the film surface only.
Activity of this new cerium oxide based materials is explained by H2 dissociation on surface platinum and diffusion of atomic hydrogen into the Pt-CeO2 mixed oxide and eminent activity of embedded Pt2+,4+ cations. High activity and low cost together with planar deposition techniques make this material particularly promising for fabrication of fuel cells to power mobile systems.



Don’t miss this chance.

Dear Colleagues

We have an important fuel cell materials center seminar schedule as follows.

"Tailor-made Nanoporous Materials for Separation and Catalysis"
by Prof. Martin Hartmann
University of Augsburg,Germany
Date and Time: Feb. 22nd, 2008, 14.00 -
Place: Collaborative Research Build. (Namiki), 4F Large Seminar Room
ABSTRACT
Nanoporous molecular sieves are interesting materials for a wide range of applications including separation of molecules by selective application and heterogeneous catalysis. In recent year, two classes of materials, viz. porous coordination polymers and mesoporous silicas were drawing increasing attention. In particular porous coordination polymers (metal organic frameworks, MOFs) have been identified as a novel class of porous materials, which play a major role in the development of new technologies for energy storage, air and water treatment, sensing, catalysis and medicine. In particular their modular design allows a rational construction of tailor-made pore systems, which can be adjusted in form and function to the interacting molecules. The use of mesoporous silicas for enzyme immobilization has been studied in recent years [1]. The adsorption (immobilization) of proteins on inorganic materials is crucial because of the potential to improve the stability of enzymes under extreme conditions. The controlled adsorption of proteins is essential in the field of enzymatic catalysis, biosensors and disease diagnostics.The synthesis and properties of selected MOFs and tailor-made mesoporous silicas will be discussed with respect to potential applications. Our works aims at the detailed understanding of the dominant interactions between the framework and the adsorbing or reacting molecules. Therefore, physico-chemical methods such as X-ray diffraction, adsorption studies, NMR and ESR spectroscopy [2] as well as other spectroscopic techniques will be employed to analyze the local interaction sites. Finally potential applications such as olefin/paraffin separation and enzyme immobilization onto mesoporous materials aiming at the development of stable and selective biocatalysts will be discussed.
[1] M. Hartmann, Chem. Mater. 17 (2005) 4577.
[2] A. Pöppl, S. Kunz, D. Himsl, M. Hartmann, J. Phys. Chem. C 112 (2008) 2678.


This seminar will provide you good hints for development of your work.
Please do not miss this chance.
See you in the seminar place.

The 18th seminar of Fuel Cell Materials Center was held as follows.

Date&Time: Sept. 11th (Tue.) 11:00-
Place: Collaborative Research Build., 4F Small Seminar Room, Namiki, NIMS
Speaker: Dr. S.B. Halligudi (Catalysis and Inorganic Chemistry Division National Chemical Laboratory, Pune, India)
Title: “Zirconia Nanoparticles Anchored Heteropoly Acids and their Acid Catalysis”

Thank you very much for your participation

The 15th seminar of Fuel Cell Materials Center was organized on 14th June as follows;

Date&Time: 14th June (Thu.) 11:00-12:00
Place: 5F, seminar room, Sengen main bldg.
Speaker: Dr. A.K. Tyagi (Chemistry Division, Bhabha Atomic Research Centre, India)
Title: "Nanoceramics at the Interface of Science and Technology"

The 16th seminar of Fuel Cell Materials Center was held on 14th June as follows;

Date: 14th June (Thu.)
Speaker: Professor Enrico Traversa, Department of Chemical Science and Technology, University of Rome Tor Vergata
Title: "NANOSTRUCTURED MATERIALS FOR INTERMEDIATE TEMPERATURE SOLID OXIDE FUEL CELLS (IT-SOFCs)"