Issue 34, 2015

Photo-induced recovery, optical detection, and separation of noxious SeO32− using a mesoporous nanotube hybrid membrane

Abstract

A macroscopic-scale disc-like membrane capable of photo-induced recovery, optical detection, and separation of ultra-trace levels of SeO32− was fabricated using a mesoporous TiO2–SiO2 nanotube (TSN)–porous anodic alumina (PAA) hybrid. The synergistic pressure-assisted filling and condensed formation of TSN inside the entire PAA (200 nm channel neck size and 60 μm longitudinal length) were evident. This approach enabled fabrication of an optical, photo-induced macroscopic membrane sensor (MS) by direct embedding of an organic colorant onto the long and mesoporous TSN/PAA channels. The TSN-MS structure of uniformly aligned, long, interconnected, tubular and nano-sized channel-like pores integrated the control patterns of photo-induced SeO32− recovery/extraction through surface chelation. As a result, a stable and recyclable TSN-MS against long-term exposure to UV light (for several days) is produced. MS functionality in terms of optical detection and selective separation (i.e., rejection and permeation) of toxic SeO32− among a group of interferent ions was assessed using a simple desktop filtration technique. The developed TSN-MS holds promise for use in advanced indoor and outdoor recovery, detection, and separation of SeO32− from aquatic sources in a one-step process. Our findings expand efforts for the environmental approach for production of SeO32−-free water, photo-hazardous SeO32− collection and management, and volume reduction of solution or solid wastes after multi-cyclic remediation.

Graphical abstract: Photo-induced recovery, optical detection, and separation of noxious SeO32− using a mesoporous nanotube hybrid membrane

Supplementary files

Article information

Article type
Paper
Submitted
18 Apr 2015
Accepted
07 Jul 2015
First published
07 Jul 2015

J. Mater. Chem. A, 2015,3, 17578-17589

Photo-induced recovery, optical detection, and separation of noxious SeO32− using a mesoporous nanotube hybrid membrane

W. Warkocki, S. A. El-Safty, M. A. Shenashen, E. Elshehy, H. Yamaguchi and N. Akhtar, J. Mater. Chem. A, 2015, 3, 17578 DOI: 10.1039/C5TA02827B

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