1. BORESKOV INSTITUTE OF CATALYSIS Prof. Vladislav A. Sadykov
Workshop Ť R&D on Materials in Russia and CIS ť
Paris, June 10 -11, 2002
http:www.catalysis.nsk.su
2. History of the institute Founded in 1958 by G. K. Boreskov in Novosibirsk, Russia
The biggest research institute in catalysis in the world
Fundamentals of heterogeneous, homogeneous and enzymes catalysis
Development of new catalysts and catalytic processes
About 1000 employees (400 scientists)
>40 Drs. Sci. , >200 PhD
3. Current Structure and Activities of the Institute
4. New Catalytic Materials and Technologies �of their Synthesis Supermicroporous catalysts and adsorbents based upon Zirconia Pillared Clays
Advantages:
Template-free synthesis;
High thermal (up to 800oC) and hydrothermal stability;
Free access of bulky molecules into galleries
~ 10 A;
Loading of variety of active components on pillars;
Shaping as bulk or supported monolithic catalysts Complex framework zirconium phosphates
(ultradispersed/dense)
Advantages:
New efficient methods of designed synthesis via soft mechanochemistry;
broad variation of acid-base, red-ox, transport and thermal expansion properties;
Radiation stability and ultra-low solubility;
Poisons and coking resistance
5. New Catalytic Materials and Technologies�of their Synthesis Cermets as catalysts for high -heat -flux processes
Advantages:
Controlled synthesis via hydrothermal treatment or anodic spark oxidation of Al in a variety of shapes;
Developed easily tuned pore structure;
High thermal conductivity, mechanical strength;
Free reagents access to encapsulated active components Ultradispersed perovskites and Ceria-based fluorite-like complex oxides as catalysts for high-temperature red-ox processes
Advantages:
Phase-pure oxides synthesis via mechanochemistry and complex polymerized precursors;
Tuned red-ox properties, phase stability and high oxygen mobility;
Variety of shapes (monoliths)
6. Applications of Materials and Technologies
Zirconia Pillared Clays:
Petrochemistry (alkylation, cracking, fuels upgrading), environment protection (de-NOx for diesel exhausts, adsorbents, etc)- instead of large-pore zeolites
Complex framework zirconium phosphates
Petrochemistry, selective oxidation of hydrocarbons, environment protection, energy generation, radio waste processing, chemical weapons destruction
7. Applications of Materials and Technologies
Cermets
Environment protection, hydrogen and syn-gas generation, fuels synthesis, combustion of biofuels
Ultradispersed fluorite- and perovskite-like oxides
Energy production, basic chemical industry, hydrogen and syngas generation, fuel cells, environmental protection
8. Partnership already established Abroad
Penn State University (USA);
University of Limerick (Ireland);
Chalmers University of Technology (Sweden),
Humboldt University (Germany);
Université du Littoral (France),
University of Salerno (Italy)
9. Cooperation we are looking for
Up-scaling and development of new materials/catalysts manufacturing technology to the pilot-industrial level; up-scaling of related technologies based upon application of those new catalysts/materials, pilot and field tests; commercialization
Forms of cooperation: via ISTC projects or directly
10. Contact information:
Prof. Vladislav A. Sadykov
Boreskov Institute of Catalysis
Russian Academy of Sciences
Lavrentiev Pr. , 5, 630090, Novosibirsk, Russia
Tel. 7 3832 343763; fax 7 3832 343766
E-mail: sadykov@catalysis.nsk.su
