IIUM Research, Invention and Innovation Exhibition 2011‘Enhancing Quality Research and Innovation for Societal Development’
Rifki Muhida1, Md. Mahmudur Rahman1 and Hideaki Kasai2
1Department of Science in Engineering, Faculty of EngineeringInternational Islamic University Malaysia, PO BOX 10, Kuala Lumpur, 50728, Malaysia
Phone: 03-6196-4421, Fax: 03-6196-4465, E-mail: [email protected],
2Department of Precision Science & Technology and Applied Physics, Graduate School of Engineering
Osaka University, Yamada Oka 2-1, Suita, Osaka 565-0871,Japan Phone: +816-6879-7858 , Fax: +816-6879-7859, E-mail: [email protected]
Novelty
The Computing Revolution
The world is experiencing a computing revolution so widespread that is has affected the way we communicate, educate, do research, and disseminate information. It is now almost impossible to do anything relevant without computers and computational techniques. The so-called interdisciplinary boundaries of the sciences and engineering have been blurred. The search for new knowledge has risen to a new level that necessitates the crossing of boundaries between previously almost unrelated disciplines. The computing revolution is blazing new frontiers for science and engineering.
Computational Materials Design (CMDComputational Materials Design (CMD®®))
CMDCMD®®
1. M. Rahman, Rifki Muhida, Riza Muhida, H. Kasai, to be submitted to European Physical Journal B. 2. Melanie David, Rifki Muhida, Tanglaw Roman, Hiroshi Nakanishi, Wilson Diño, Hideaki Kasai, Fumiyoshi Takano, Hisashi
Shima, Hiro Akinaga,VACUUM, 83 (2009) 599-601.3. Md. M. Rahman, R. Muhida, H. Kasai , Surface and Interface Analysis 40 (2008) 1075-1077.4. R. Muhida, M. M. Rahman, M. David, W. A. Diño, H. Nakanishi, H. Kasai, Condensed Material Theory Volume 21 (Book),
Nova Science Publishers, New York ISBN: 1-60021-501-7, (Chapter 11).5. M. M. Rahman, R. Muhida, H. Kasai, Condensed Material Theory Volume 21 (Book), Nova Science Publishers, New York
ISBN: 1-60021-501-7, (Chapter 12).6. Riza Muhida, Wahyudi, Rifki Muhida, Ahmad Unggul Priyantoro,
American Journal of Applied Science 5, 805-810 (2008) .7. Melanie David, Rifki Muhida, Tanglaw Roman, Shinichi Kunikata, Wilson A. T. Diño, Hiroshi Nakanishi, Hideaki Kasai,
Fumiyoshi Takano, Hisashi Shima, Hiro Akinaga, Journal of Physics: Condensed Matter, 19 (2007) 365210- 365215.8. M. M. Rahman, R. Muhida and H. Kasai, International Journal of Energy, Environment and Economics, 14 (2007) 141-147.9. R. Muhida, M. M. Rahman, M. David, W.A. Diño, H. Nakanishi and H. Kasai, International Journal of Energy, Environment
and Economics, 14 (2007) 149-162.10. S. Matshumoto, W. Diño, M. David, R.Muhida, T. Roman, H. Nakanishi, H. Kasai, F. Takano, H. Shima and H. Akinaga,
Journal of the Vacuum Society of Japan 50 (2007) 437-439.11. H. Setiyanto, R. Muhida, T. Kishi, O.T. Rempillo, M. M. Rahman, H. K. Dipojono, W. A. Diño, S. Matsumoto and H. Kasai,
Japanese Journal of Applied Physics 45 (2006) L1103 - L1105.12. Md. M. Rahman, R. Muhida, R. Mozo, H. Kasai, Journal of the Physical Society of Japan, 75 (2006) 114714(1)- 114714(4).13. H. Setiyanto, R. Muhida, Md. M. Rahman, W. A. Diño, H.K. Dipodjono, T. Kishi, S. Matsumoto, H. Kasai, Journal of the
Vacuum Society of Japan 49 (2006) 137-141.14. A. Susanto, R. Mozo, R. Muhida, T. Kishi, M. M. Rahman, W. A. Diño, H. K. Dipojono, H. Kasai, The European Physical
Journal D 38 (2006) 199 - 201.15. R. Muhida, M. David, Md. M. Rahman, W. A. Diño, H. Nakanishi, H. Kasai, K. Fukutani and T. Okano, The European
Physical Journal D 38 (2006) 99 - 101.16. R. Muhida, H. Setiyanto, Md. M. Rahman, W. A. Diño, H. Nakanishi, H. Kasai, K. Fukutani and T. Okano, Thin Solid Films
509 (2006) 223-226.17. R. Muhida, A. Susanto, T. Kishi, T. A. Roman, W. A. Diño, H. Nakanishi, H. Kasai, Journal of the Vacuum Society of Japan
48 (2005) 205-208.18. Md. M. Rahman, R. Muhida, W. A. Diño, H. Nakanishi, H. Kasai, Journal of the Vacuum Society of Japan 48 (2005) 232-234.19. Md. M. Rahman, R. Muhida, W. A. Diño, H. Nakanishi, H. Kasai, Journal of the Vacuum Society of Japan . 48, 232 (2005).20. R. Muhida, Md. M. Rahman, M. Tsuda, T. A. Roman, W. A. Diño, H. Kasai,H. Nakanishi, Journal of Physics: Condensed
Matter 16, S5749 (2004).21. H. Kasai, W. A. Diño, R. Muhida, Progress in Surface Scicience 72, 53 (2003). 22. R. Muhida, W. A. Diño, Md. M. Rahman, H. Kasai,H. Nakanishi, Journal of the Physical Society of Japan 7, 2292 (2004).23. R. Muhida, Y. Miura, W. A. Diño, H. Kasai, H. Nakanishi, A. Okiji, K. Fukutani, T. Okano, Journal Applied Physics 93, 644
(2003).24. H. Kasai, H. Nakanishi, Y. Miura, R. Muhida, Japanese Patent No. 2002-327405.25. R. Muhida, W. A. Diño, Y. Miura, H. Kasai, H. Nakanishi, K. Fukutani, T. Okano, A. Okiji, Journal of the Vacuum Society of
Japan 45, 448 (2002).26. R. Muhida, W. A. Diño, Y. Miura, H. Kasai, H. Nakanishi, A. Okiji, K. Fukutani, T. Okano, Surf. Sciience 514, 273 (2002).27. H. Kasai, H. Nakanishi, W. A. Diño, R. Muhida, Japanese Patent No. 2001 274461.28. R. Muhida, W. A. Diño, A. Fukui, Y. Miura, H. Kasai, H. Nakanishi, A. Okiji, K. Fukutani, T. Okano, Journal of the Physical
Society of Japan 70, 3654 (2001).29. R. Muhida, W. A. Diño, A. Fukui, H. Kasai, H. Nakanishi, A. Okiji, K. Fukutani, T. Okano, Surface Science 493, 285 (2001).
Publications & Patents
Results
The energy barrier for the water dissociation decreases significantly from 8.1 eV (>2000oC) to 1.9 eV (~500oC) using cyanocobaltate complexes.
Hydrogen car
21st century new frontier
ID: 78ID: 78 Applying computational materials Applying computational materials design (CMDdesign (CMD®®) toward efficient ) toward efficient
hydrogen production from water hydrogen production from water
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