[31] Gelali A., Solymani SH., Elahi M., Ghodseahi T., Zahrabi H., Vesaghi M. A., Ahmadi Rad M., Shafiekhani A., Ahmadpourian A.,
Fabrication of Cu-Ni Core-Shell Nanoparticles by CO Deposition of RF-PECVD and RF-Sputtering,
Iran. J. Surf. Engineering,
11: 39-43 (2011).
[35] Long N.V., Yang Y., Thi C.M., Minhh N.V., Cao Y., Nogami M.,
The Development of Mixture, Alloy, and Core-Shell Nanocatalysts with Nanomaterial Supports for Energy Conversion in Low-Temperature Fuel Cells,
Nano Energy,
2: 636-676 (2013).
[36] Luo J., Wang L., Mott D., Njoki P. N., Lin Y., He T., Xu Z., Wanjana B. N., Lim I. I. S., Zhong C. J.,
Core/Shell Nanoparticles as Electrocatalysts for Fuel Cell Reactions,
Adv. Mater.,
20: 4342-4347 (2008).
[52] Zhu J., Zhao X., Xiao M., Liang L., Liu Ch., Liao J., Xing W.,
The Construction of Nitrogen-Doped Graphitized, Carbon-TiO2 Composite to Improve the Electrocatalyst for Methanol Oxidation,
Carbon,
72: 114-124 (2014).
[59] Ma C., Jin Y., Shi M., Chu Y., Xu Y., Jia W., Yuan Q., Chen J., Pan H., Dai Q.,
Highly Active Pd/WO3-CNTs Catalysts for Formic Acid Electrooxidation and Study of the Kinetics,
Ionics,
20: 1419-1426 (2014).
[73] Tan H., Ma X., Sheng L., An K., Yu L., Zhao H., Xu J., Ren W., Zhao X.,
Direct Synthesis of Few-Layer Graphene Supported Platinum Nanocatalyst for Methanol Oxidation,
Jap. J. Appl. Phys, 11: 117101 (2014).