1 |
J.-S. Kim, S.-I. Pyun, I.-W. Lee, and R.-H, Song, 'Kinetics of Oxygen Reduction on Porous Mixed Conducting $(La_{0.85}Sr_{0.15})_{0.9}MnO_3$ Electrode by Ac-Impedance Analysis', submitted to Electrochim. Acta for publication, (2005)/
|
|
2 |
M. Kwoka, L. Ottaviano, M. Passacantando, S. Santucci, G Czempik, and J. Szuber, 'XPS study of the surface chemistry of LCVD $SnO_2$ thin films after oxidation', Thin solid films, 490, 36 (2005)/
|
|
3 |
A. Okamoto, H. Geka, I. Shibasaki, and K. Yoshida, 'Transport properties of InSb and InAs thin films on GaAs substrates', J. Cryst. Growth, 278, 604 (2005)/
|
|
4 |
A. Okamoto, H. Geka, I. Shibasaki, and K. Yoshida, 'Transport properties of InSb and lnAs thin films on GaAs substrates', J. Cryst. Growth, 278, 604 (2005)/
|
|
5 |
W. S. Eom, Y. K. Kim, W. L Cho, and H. Jang, 'Improvement of Structure and Electrochemical Properties of $LiNi_{0.5}Mn_{1.5}O_4$ for High Voltage Class Cathode Material by Cr Substitution', J. Korean Electrochemical Society, 8, 2 (2005)/
|
|
6 |
박호영, 임영창, 최규길, 이기창, 박기백, 권미연, 조성백, 남상철, 한국전기화학회지, 8, 37 (2005)/
|
|
7 |
C. H. Mi, X. B. Zhao, G S. Cao, and J. P. Tu, 'In Situ Synthesis and Properties of Carbon-Coated $LiFePO_4$ as Li-Ion Battery Cathodes', J. Electrochem. Soc., 152, 483 (2005)/
|
|
8 |
D. Wang, H. Ii, S. Shi, X. Huang, and L. Chen, 'Improving the rate performance of $LiFePO_4$ by Fe-site doping', Electrochem. Acta, 50, 2955(2005)/
|
|
9 |
V. S. Siva, B. Ruffinann, H. Silva Y. A. Galleo, A. Menes, L. M Madeirab, and S. P. Nues, J. of Power Sources, 140, 34-40 (2005)/
|
|
10 |
V. Baglio, A. S. Arico, A. Di Blasi, V. Antonucci, P. L. Antonucci, S. Licoccia, E. Traversa, and F. Serraino Fiory, Electrochimica Acta, 50, 1241 (2005)/
|
|