Photoluminescence enhancement of nanoporous alumina using one-step anodization of high- and low-purity aluminum at room temperature

摘要

In this article, we investigate the enhanced photoluminescence (PL) behavior of nanoporous anodic aluminum oxide (AAO) formed by one-step anodization of aluminum (Al) in oxalic acid at room temperature (25 degrees C) from both high- (99.99%) and low-purity (99%) Al. Compared with studies using the traditional two-step direct-current anodization at low temperature (0-10 degrees C), we introduce hybrid-pulse anodization to synthesize AAO from high- and low-purity Al at 25 degrees C for enhancing the PL. The PL intensity of high-purity MO was stronger than the low-purity one due to the reduced surface scattering and intrinsic impurity inhibition. Besides the purity effect, MO formed at the elevated temperature of 25 degrees C also greatly enhanced the PL intensity compared to that at the low temperature of 5 degrees C. Experimental results showed that both the high- and low-purity AAOs synthesized at 25 degrees C led to enhancements of the intensity of the PL peak by about 3.7-5.5-fold, depending on the Al purity and deconvoluted peak wavelength. These improvements were attributed to the high temperature enhancing the MO thickness and reaction rate, thereby enabling more fluorescent ions to diffuse into the MO for increased vacancy defects. (C) 2017 Elsevier B.V. All rights reserved.