Lele Pi scite author profile

Abstract. In present study, we prepared nanoporous Ti oxides by potentiostat and pulse dealloying TiCu amorphous alloy in HNO 3 solution. The influence of applied voltage on the morphology was investigated by SEM. The mechanism of dealloying was also discussed. A multilayer nanoporous structure was fabricated using pulse dealloying. The ideal nanoporous structure with mean pore diameter of about 50-100 nm and mean pore wall thickness of about 50 nm was obtained using pulse dealloying with initial voltage of 1.0 V and pulse size of 0.4 V. The static currents for pulse dealloying are higher than those for potentiostat dealloying under the same initial potentials. The nanoporous surface is mainly composed of TiO, Ti 2 O 3 and TiO 2 .

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Lele Pi

Ti oxide nano-porous surface structure prepared by dealloying of Ti–Cu amorphous alloy

Electro-oxidation of ethylene glycol on nanoporous Ti–Cu amorphous alloy

Effects of pulse voltage on the formation of nanoporous Ti oxides by dealloying amorphous TiCu alloy

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