Li-Xia Du scite author profile

A simple method for controllable growth of zinc oxide nanorod arrays by adjusting preparation conditions of their seed layers is studied. Mole ratio of zinc acetate to diethanol amine, concentration of the two chemicals in the solution, and addition of polyethylene glycol in the solution are identified as three key parameters that have a great influence on microstructure of the seed layers. Surface roughness and uniformity in thickness of the seed layer are found as main factors that determine the nanorod arrays' morphologies and alignments. Average diameter of the nanorods can be tuned from 106 to 336 nm; spacial distribution density of the nanorods is effectively controlled by adding polyethylene glycol. Advantage of this simple method lies in two aspects: First, it ensures that all the nanorod arrays have same chemical compositions as their morphologies change. Second, the controlled morphologies of zinc oxide nanorod arrays can significantly tune the hydrophobic properties. As demonstrated in their hydrophobic properties measurement, the static contact angle of water on their top surfaces can be finely tuned from 127 to 143 .

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Dealloyed PdAg core Pt monolayer shell electrocatalyst for oxygen reduction reaction

Yang

Feng

et al. 2016

RSC Adv.

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Li-Xia Du

Promotion of palladium catalysis by silver for ethanol electro-oxidation in alkaline electrolyte

Controllable Synthesis and Photocatalytic Activity of Anatase TiO2 Single Crystals with Exposed {110} Facets

Platinum catalysts promoted by In doped SnO2 support for methanol electrooxidation in alkaline electrolyte

Control of morphologies and properties of zinc oxide nanorod arrays by slightly adjusting their seed layers

Dealloyed PdAg core Pt monolayer shell electrocatalyst for oxygen reduction reaction

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