Journal
ADVANCED SUSTAINABLE SYSTEMS
Volume 5, Issue 10, Pages -Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adsu.202100076
Keywords
environmental remediation; hybrid TiO2; L-tyrosine; photocatalysts; sol-gel synthesis
Funding
- Ministerio de Ciencia en Innovacion of Spain (MICINN)
- Agencia Estatal de Investigacion (AEI)/European Regional Development Fund (FEDER) [CTQ2015-74494-JIN, RTI2018-099504-B-C21/A-C22]
- Universidad de Alicante (Spain) through the Programa de Retencion de Talento [UATALENTO16-03, 17-05]
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A method to produce hybrid organotitanias with excellent photocatalytic activity through the incorporation of L-tyrosine has been developed. By fine-tuning the crystalline structure, size, and shape of the materials, their photocatalytic efficiency is enhanced. The materials can absorb light in the visible range, making them potentially useful for water remediation.
A method to produce hybrid organotitanias, both as thin films and suspensions, showing excellent photocatalyic activity in the degradation of organic dyes in aqueous solutions under visible light irradiation is disclosed. This method is based on the in situ incorporation of an amino acid, L-tyrosine, during the synthesis of the titanias owing to its coordination and co-condensation with the titania precursor under acidic conditions. This methodology allows the fine-tuning oftheir crystalline structure, size, and shape by simply varying the pH of the synthesis gel, leading to anatase nanoparticles of approximate to 5 nm and surface areas of approximate to 200 m(2)g(-1) at pH = 2.2, while highly crystalline rutile nanorods are formed at pH = 0. The incorporation of L-tyrosine to both anatase nanoparticles and rutile nanorods enables these materials to absorb light in the visible range due to both the decrease in their band gap, as compared to the reference materials, and the presence of additional absorption edges at wavelengths higher than 400 nm. Consequently, the photocatalytic activity of both hybrid anatase nanoparticles and rutile nanorods exhibits a 120% enhanced photocatalytic efficiency, as compared to that of L-Tyr-free titanias and the commercial P25, which confirms their potential application in water remediation.
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