水热合成与热分解法制备氧化铝纳米棒

以氢氧化铝和氢氧化锂为原料, 在120℃反应10～17d的水热条件下, 制备出Al(OH)₃·xH₂O前驱物. 此前驱物经400℃热分解1h, 得到了Al₂O₃纳米棒. 通过TEM、HRTEM、SAED和XRD等分析手段对产物进行了表征, 并以TGA分析Al(OH)₃·xH₂O前驱物受热分解时的热力学行为. 实验结果发现: 产物形貌为棒状, 呈现单晶特性. 纳米棒的成长符合Ostwald熟化与方向附着机制. 同时发现了碱液对纳米棒的形成有很大的影响, 以5mol/L KOH碱液取代原来的LiOH碱液时, 出现更细小形貌的纳米线, 尺寸为φ2nm×(10～25)nm.

Hydrothermal Synthesis and Thermal Decomposing Method for Synthesizing Alumina Nanorods

Alumina nanorods were successfully prepared from the thermal decomposition of Al(OH)₃·xH₂O nano precursors obtained hydrothermally at 120℃ for 10--17d, by using Al(OH)₃ and LiOH as raw materials. The as-prepared samples were characterized by TEM, HRTEM, SAED and XRD. Besides, the thermal behavior of decomposing Al(OH)₃·xH₂O precursors synthesized by hydrothermal process was studied through TGA. The results show that the as-prepared Al₂O₃ nanorods have rod-like morphology and single crystalline nature. The mechanism for the Al₂O₃ nanorods growth is agreed to Ostwald ripening and oriented attachment. Lye plays an important role in synthesizing the Al₂O₃ nanorods. As 5mol/L KOH lye displaces original LiOH, the as-prepared nanowires in the reaction have smaller morphology, with a diameter of 2nm and a length of 10--25nm.