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Effect of metal catalysts or reduced graphene oxide on metal oxides semiconductors for detection of volatile organic compounds

Grant number: 14/17343-0
Support type:Regular Research Grants
Duration: March 01, 2015 - February 28, 2017
Field of knowledge:Engineering - Materials and Metallurgical Engineering
Principal Investigator:Diogo Paschoalini Volanti
Grantee:Diogo Paschoalini Volanti
Home Institution: Instituto de Biociências, Letras e Ciências Exatas (IBILCE). Universidade Estadual Paulista (UNESP). Campus de São José do Rio Preto. São José do Rio Preto , SP, Brazil

Abstract

The research project concerns the evaluation of the use of metal catalysts (MCat) or reduced graphene oxide (RGO) in metal oxide semiconductor (MOS) in the composites MOS-MCat and MOS-RGO, respectively, to improve the sensitivity, selectivity and response time of the volatile organic compounds (VOCs) sensors. The MOS-MCat structures are obtained by deposition of MCats (e.g. Pt, Pd and Ag) by direct ion exchange between the ligands of the MCat complex with hydroxyl surface of the MOS (e.g. SnO2, WO3, CuO and NiO) previously prepared by microwave-assisted hydrothermal method. Instead, MOS-RGO composites are synthesized in one step from the dispersion containing a precursor solution of the metal salts of the MOS, chemical basis and graphene oxide by microwave-assisted crystallization. It is expected that the MCats promote electronic sensitization (Fermi level control) and chemical sensitization (enrichment of the surface with reactive species by catalysis) to prevent low selectivity, slow response and disabling the sensor. On the other hand, the RGO act as electron acceptor to facilitate interaction between OMSs VOCs and chemical interactions via pi-pi type, in addition to increasing the surface area of the composite. The main benefits of RGO consist in increasing the adsorption, sensitivity, reversibility and detection limits of the sensor process. Both types of composites will be evaluated in the presence of different VOCs (e.g. acetone, ammonia, ethanol and toluene) by conductometric measurements. The originality of the proposal is that to understand the relationship between the effects of MCat nanoparticles and RGO in the interface with the OMSs will be more sensitive devices, selective and faster response times compared to those described in the literature. As a challenge, the composite shall be tested in similar conditions of high human breathing (relative humidity between 90 to 95%). Indeed, the materials studied may have potential to diagnose diseases such as diabetes and lung cancer. Allied to scientific development, we seek the training of human resources at the undergraduate and graduate students with the nucleation of a new research group in the Department of Chemistry and Environmental Sciences UNESP, campus of SJ do Rio Preto. (AU)

Scientific publications (11)
(References retrieved automatically from Web of Science and SciELO through information on FAPESP grants and their corresponding numbers as mentioned in the publications by the authors)
MODENES-JUNIOR, MARCO A.; ZITO, CECILIA A.; PERFECTO, TARCISIO M.; VOLANTI, DIOGO P. Ethanol detection using composite based on reduced graphene oxide and CuO hierarchical structure under wet atmosphere. MATERIALS SCIENCE AND ENGINEERING B-ADVANCED FUNCTIONAL SOLID-STATE MATERIALS, v. 248, SEP 2019. Web of Science Citations: 0.
BYZYNSKI, GABRIELA; VOLANTI, DIOGO P.; RIBEIRO, CAU; MASTELARO, VALMOR R.; LONGO, ELSON. Direct photo-oxidation and superoxide radical as major responsible for dye photodegradation mechanism promoted by TiO2-rGO heterostructure. JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS, v. 29, n. 19, p. 17022-17037, OCT 2018. Web of Science Citations: 4.
ZITO, CECILIA A.; ORLANDI, MARCELO O.; VOLANTI, DIOGO P. Accelerated microwave-assisted hydrothermal/solvothermal processing: Fundamentals, morphologies, and applications. Journal of Electroceramics, v. 40, n. 4, p. 271-292, JUN 2018. Web of Science Citations: 3.
BYZYNSKI, GABRIELA; PEREIRA, ANDREZA PRADO; VOLANTI, DIOGO P.; RIBEIRO, CAUE; LONGO, ELSON. High-performance ultraviolet-visible driven ZnO morphologies photocatalyst obtained by microwave-assisted hydrothermal method. JOURNAL OF PHOTOCHEMISTRY AND PHOTOBIOLOGY A-CHEMISTRY, v. 353, p. 358-367, FEB 15 2018. Web of Science Citations: 7.
ZITO, CECILIA A.; PERFECTO, TARCISIO M.; VOLANTI, DIOGO P. Palladium-Loaded Hierarchical Flower-like Tin Dioxide Structure as Chemosensor Exhibiting High Ethanol Response in Humid Conditions. ADVANCED MATERIALS INTERFACES, v. 4, n. 22 NOV 23 2017. Web of Science Citations: 10.
ZITO, CECILIA A.; PERFECTO, TARCISIO M.; VOLANTI, DIOGO P. Impact of reduced graphene oxide on the ethanol sensing performance of hollow SnO2 nanoparticles under humid atmosphere. SENSORS AND ACTUATORS B-CHEMICAL, v. 244, p. 466-474, JUN 2017. Web of Science Citations: 48.
BYZYNSKI, GABRIELA; MELO, CAMILA; VOLANTI, DIOGO P.; FERRER, MATEUS M.; GOUVEIA, AMANDA F.; RIBEIRO, CAUE; ANDRES, JUAN; LONGO, ELSON. The interplay between morphology and photocatalytic activity in ZnO and N-doped ZnO crystals. MATERIALS & DESIGN, v. 120, p. 363-375, APR 15 2017. Web of Science Citations: 26.
VESSALLI, BEATRIZ A.; ZITO, CECILIA A.; PERFECTO, TARCISIO M.; VOLANTI, DIOGO P.; MAZON, TALITA. ZnO nanorods/graphene oxide sheets prepared by chemical bath deposition for volatile organic compounds detection. Journal of Alloys and Compounds, v. 696, p. 996-1003, MAR 5 2017. Web of Science Citations: 25.
OLIVEIRA, CIBELE A.; VOLANTI, DIOGO P.; NOGUEIRA, ANDRE E.; ZAMPERINI, CAMILA A.; VERGANI, CARLOS E.; LONGO, ELSON. Well-designed beta-Ag2MoO4 crystals with photocatalytic and antibacterial activity. MATERIALS & DESIGN, v. 115, p. 73-81, FEB 5 2017. Web of Science Citations: 16.
PERFECTO, T. M.; ZITO, C. A.; VOLANTI, D. P. Room-temperature volatile organic compounds sensing based on WO3 center dot 0.33H(2)O, hexagonal-WO3, and their reduced graphene oxide composites. RSC ADVANCES, v. 6, n. 107, p. 105171-105179, 2016. Web of Science Citations: 14.

Please report errors in scientific publications list by writing to: cdi@fapesp.br.