401 |
Electrical and thermal properties of carbon-coated porous ceramic fiber composites Yu JS, Park S, Lee JC, Hahn IS, Woo SK Materials Science Forum, 486-487, 370, 2005 |
402 |
Emissive carbon coating for energy saving Yu JS, Sung JH, Park S, Lee JC Materials Science Forum, 486-487, 666, 2005 |
403 |
Sealing performance of thin amorphous carbon films formed by ion beam assisted deposition at low temperature for protection of aluminium against aggressive media: the influence of the ion energy von Ringleben J, Sundermann C, Matsutani I, Kiuchi M, Ensinger W Thin Solid Films, 482(1-2), 115, 2005 |
404 |
Carbon-coated anatase: adsorption and decomposition of phenol in water Tryba B, Tsumura T, Janus M, Morawski AW, Inagaki M Applied Catalysis B: Environmental, 50(3), 177, 2004 |
405 |
Carbon-coated microstructured reactors for heterogeneously catalyzed gas phase reactions: influence of coating procedure on catalytic activity and selectivity Schimpf S, Bron A, Claus P Chemical Engineering Journal, 101(1-3), 11, 2004 |
406 |
Formation of the Ti4O7 phase through interaction between coated carbon and TiO2 Tsumura T, Hattori Y, Kaneko K, Hirose Y, Inagaki M, Toyoda M Desalination, 169(3), 269, 2004 |
407 |
Effect of carbon coating on elevated temperature performance of graphite as lithium-ion battery anode material Lee HY, Baek JK, Lee SM, Park HK, Lee KY, Kim MH Journal of Power Sources, 128(1), 61, 2004 |
408 |
Dispersion and distribution of ruthenium on carbon-coated ceramic monolithic catalysts prepared by impregnation Crezee E, Kooyman PJ, Kiersch J, Sloof WG, Mul G, Kapteijn F, Moulijn JA Catalysis Letters, 90(3-4), 181, 2003 |
409 |
Carbon-coated silicon as anode material for lithium ion batteries: advantages and limitations Dimov N, Kugino S, Yoshio M Electrochimica Acta, 48(11), 1579, 2003 |
410 |
Composites between photoactive anatase-type TiO2 and adsorptive carbon Tsumura T, Kojitani N, Umemura H, Toyoda M, Inagaki M Applied Surface Science, 196(1-4), 429, 2002 |