Hydrothermal Synthesis and Growth Mechanism of Mesoporous ZnO Microtubes

Yan Li; Yun Ling Zou; Qing Jun Zhou

doi:10.4028/www.scientific.net/AMR.554-556.481

Paper Titles

Investigation of Residual Stress in Green Compacts of Metal Powder Using X-Ray Diffraction
p.461

The Microstructure and Properties of Extruded Mg-Nd-Gd-Zn-Zr Alloy
p.465

Synthesis of Nonspherical Banana-Like Mesoporous Silica and their Vertically Deposition Assembly
p.472

The Relationship between Gel Content and Drying Shrinkage
p.477

Hydrothermal Synthesis and Growth Mechanism of Mesoporous ZnO Microtubes
p.481

Hydrothermal Synthesis of Rare-Earth Doped NH₄Y₃F₁₀ Sub-Microcrystals with Down-Converting Luminescence
p.485

Synthesis and Dephosphorization of Iron Manganese Composite Oxide by Acid Leaching on Iron Manganese Ore
p.489

Synthesis of MoO₃ Nanostructures by a Solution Method
p.494

Adsorption Removal of Methyl Orange from Aqueous Solution by Mesoporous Al₂O₃
p.498

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 554-556Hydrothermal Synthesis and Growth Mechanism of...

Hydrothermal Synthesis and Growth Mechanism of Mesoporous ZnO Microtubes

Abstract:

Porous ZnO microtubes have been synthesized via a facile hydrothermal method based on nanoparticle splicing growth and the preferential etching strategy in the hydrothermal reaction system with high supersaturation. The ZnO tubes have hexangular wurtzite structure with a dimension of about 6 to 12 m in length, 4 m in diameter and about 40 nm in wall thickness, which is made of numerous mesopores with diameter ranging from 40 nm to 200 nm.