Sol–Gel Synthesis of TiO<sub>2</sub> with Pectin and Their Efficiency in Solar Cells Sensitized by Quantum Dots

Jean Flores-Gómez; Silvia Mota-Macías; Juan P. Guerrero-Jiménez; Victor Hugo Romero-Arellano; Juan Morales-Rivera

doi:10.3390/gels10070470

Gels (Jul 2024)

Sol–Gel Synthesis of TiO<sub>2</sub> with Pectin and Their Efficiency in Solar Cells Sensitized by Quantum Dots

Jean Flores-Gómez,
Silvia Mota-Macías,
Juan P. Guerrero-Jiménez,
Victor Hugo Romero-Arellano,
Juan Morales-Rivera

Affiliations

Jean Flores-Gómez: School of Engineering and Technological Innovation, University of Guadalajara, Campus Tonalá, Av. Nuevo Periférico No. 555, Tonalá 45425, Jalisco, Mexico
Silvia Mota-Macías: School of Science and Technology, University of Guadalajara, Campus Colotlán, Carretera Federal No. 23, Km. 191, Colotlán 46200, Jalisco, Mexico
Juan P. Guerrero-Jiménez: School of Engineering and Technological Innovation, University of Guadalajara, Campus Tonalá, Av. Nuevo Periférico No. 555, Tonalá 45425, Jalisco, Mexico
Victor Hugo Romero-Arellano: School of Engineering and Technological Innovation, University of Guadalajara, Campus Tonalá, Av. Nuevo Periférico No. 555, Tonalá 45425, Jalisco, Mexico
Juan Morales-Rivera: School of Engineering and Technological Innovation, University of Guadalajara, Campus Tonalá, Av. Nuevo Periférico No. 555, Tonalá 45425, Jalisco, Mexico

DOI: https://doi.org/10.3390/gels10070470
Journal volume & issue: Vol. 10, no. 7
p. 470

Abstract

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In this study, titanium oxide TiO2 nanoparticles were produced using the sol–gel approach of green synthesis with pectin as the reducing agent. The synthetized TiO2 nanoparticles with pectin were characterized by scanning electron microscopy (SEM), X-ray diffraction (XRD), visible light absorption (UV–Vis) and the BET method. The structure and morphology of the TiO2 powder were described with SEM, revealing uniform monodisperse grains with a distribution of 80% regarding sizes 2 was identified as an anatase and rutile phase with a crystallinity size estimated between 27 and 40 nm. Also, the surface area was determined by nitrogen adsorption–desorption using the Brown–Emmet–Teller method, with a surface area calculated as 19.56 m2/g, typical of an IV type isotherm, indicating mesoporous NPs. UV–Vis spectra showed that sol–gel synthesis reduced the band gap from the 3.2 eV common value to 2.22 eV after estimating the optical band gap energy using the adsorption coefficient; this translates to a possible extended photo response to the visible region, improving photoactivity. In addition, the power conversion of the photoelectrode was compared based on similar assembly techniques of TiO2 electrode deposition. Quantum dot crystals were deposited ionically on the electrode surface, as two different paste formulations based on a pectin emulsifier were studied for layer deposition. The results confirm that the TiO2 paste with TiO2-synthesized powder maintained good connections between the nanocrystalline mesoporous grains and the deposited layers, with an efficiency of 1.23% with the transparent paste and 2.27% with the opaque paste. These results suggest that pectin could be used as a low-cost, functional sol–gel catalysis agent for the synthesis of controlled NPs of metal oxide. It demonstrates interesting optical properties, such as an increase in photo response, suggesting further applications to photocatalysts and biomedical features.

Published in Gels

ISSN: 2310-2861 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Chemistry: Inorganic chemistry; Science: Chemistry: General. Including alchemy
Website: http://www.mdpi.com/journal/gels

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