Fotoconversão de CO2 em produtos com valor agregado
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2021 |
| Tipo de documento: | Dissertação |
| Idioma: | por |
| Título da fonte: | Repositório Institucional da UFSCAR |
| Texto Completo: | https://repositorio.ufscar.br/handle/ufscar/14383 |
Resumo: | In recent decades, due to population and industrial growth, the energy demand has increased significantly. However, much of the energy consumed comes from burning fossil fuels, which emit large amounts of gases that can increase the temperature of the earth. Among these gases, carbon dioxide (CO2) stands out as one of the main causes of the greenhouse effect. Thus, the need to develop new economically and energetically viable technologies for energy production through clean and sustainable routes is essential. Among these technologies, the CO2 photoconversion process (“artificial photosynthesis”) in products with added value can be highlighted. However, the vast majority of semiconductors developed to date, for this purpose, have a high rate of recombination of their photogenerated electron/hole pairs, thus reducing the efficiency of the process. In order to improve the photocatalytic efficiency, this project aimed to develop semiconductors based on niobium pentoxide (Nb2O5) modified with iron (Fe) or copper (Cu) for photoreduction of CO2, aiming to increase the photocatalytic efficiency of the material through the reduction in the rate of recombination of the photogenerated electron/hole pairs. For this, semiconductors based on Nb2O5 were synthesized by the oxidizing peroxide method under hydrothermal treatment. The depositions of Fe or Cu were carried out by the method of sputtering ("magnetron sputtering") since this technique allows the deposition of nanoparticles with a high degree of purity. The addition of Fe or Cu nanoparticles on the Nb2O5 surface significantly reduced the rate of recombination of the photogenerated electron/hole pairs, due to the greater spatial separation of the photogenerated charges through the formation of heterostructure between the materials, which resulted in a significant increase in CO2 photoconversion. The materials modified with Fe showed high production of carbon monoxide (CO) (356.6 µmol/g). In addition, the calcination of the Nb2O5 semiconductor and its modification with Fe favored the production of methane (5.13 µmol/g), methanol (75.78 µmol/g) and acetic acid (69.07 µmol/g). On the other hand, Cu-modified materials showed a high production of methane (52.5 µmol/g) and methanol (628.01 µmol/g), compared to Nb2O5 and the catalysts modified with Fe The higher conversion efficiency for materials modified with Cu is related to the ability of Cu to trap the photogenerated electrons in the conduction band of Nb2O5. |
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Faria, Ana Luiza AlvesNogueira, Francisco Guilherme Esteveshttp://lattes.cnpq.br/8117497993539795http://lattes.cnpq.br/126147178670396067051268-4ed8-4e71-a7a1-15183da11f052021-06-16T11:14:14Z2021-06-16T11:14:14Z2021-04-29FARIA, Ana Luiza Alves. Fotoconversão de CO2 em produtos com valor agregado. 2021. Dissertação (Mestrado em Engenharia Química) – Universidade Federal de São Carlos, São Carlos, 2021. Disponível em: https://repositorio.ufscar.br/handle/ufscar/14383.https://repositorio.ufscar.br/handle/ufscar/14383In recent decades, due to population and industrial growth, the energy demand has increased significantly. However, much of the energy consumed comes from burning fossil fuels, which emit large amounts of gases that can increase the temperature of the earth. Among these gases, carbon dioxide (CO2) stands out as one of the main causes of the greenhouse effect. Thus, the need to develop new economically and energetically viable technologies for energy production through clean and sustainable routes is essential. Among these technologies, the CO2 photoconversion process (“artificial photosynthesis”) in products with added value can be highlighted. However, the vast majority of semiconductors developed to date, for this purpose, have a high rate of recombination of their photogenerated electron/hole pairs, thus reducing the efficiency of the process. In order to improve the photocatalytic efficiency, this project aimed to develop semiconductors based on niobium pentoxide (Nb2O5) modified with iron (Fe) or copper (Cu) for photoreduction of CO2, aiming to increase the photocatalytic efficiency of the material through the reduction in the rate of recombination of the photogenerated electron/hole pairs. For this, semiconductors based on Nb2O5 were synthesized by the oxidizing peroxide method under hydrothermal treatment. The depositions of Fe or Cu were carried out by the method of sputtering ("magnetron sputtering") since this technique allows the deposition of nanoparticles with a high degree of purity. The addition of Fe or Cu nanoparticles on the Nb2O5 surface significantly reduced the rate of recombination of the photogenerated electron/hole pairs, due to the greater spatial separation of the photogenerated charges through the formation of heterostructure between the materials, which resulted in a significant increase in CO2 photoconversion. The materials modified with Fe showed high production of carbon monoxide (CO) (356.6 µmol/g). In addition, the calcination of the Nb2O5 semiconductor and its modification with Fe favored the production of methane (5.13 µmol/g), methanol (75.78 µmol/g) and acetic acid (69.07 µmol/g). On the other hand, Cu-modified materials showed a high production of methane (52.5 µmol/g) and methanol (628.01 µmol/g), compared to Nb2O5 and the catalysts modified with Fe The higher conversion efficiency for materials modified with Cu is related to the ability of Cu to trap the photogenerated electrons in the conduction band of Nb2O5.Nas últimas décadas, devido ao crescimento populacional e industrial a demanda por energia aumentou de maneira significativa. No entanto, grande parte da energia consumida é proveniente da queima de combustíveis fósseis, a qual emite grande quantidade de gases que podem levar a um aumento na temperatura da terra. Entre estes gases destaca-se o dióxido de carbono (CO2), um dos principais causadores do efeito estufa. Assim, a necessidade do desenvolvimento de novas tecnologias economicamente e energeticamente viáveis para produção de energia através de rotas limpas e sustentáveis é fundamental. Entre estas tecnologias pode-se destacar o processo de fotoconversão do CO2 (“fotossíntese artificial”) em produtos com valor agregado. No entanto, a grande maioria dos semicondutores desenvolvidos até o momento, para este fim, possuem uma elevada taxa de recombinação de seus pares elétron/buraco fotogerados, reduzindo assim a eficácia do processo. A fim de melhorar a eficiência fotocatalítica, este projeto teve como objetivo o desenvolvimento de semicondutores a base de pentóxido de nióbio (Nb2O5) modificados com ferro (Fe) ou cobre (Cu) para fotorredução do CO2, visando aumentar a eficiência fotocatalítica do material através da redução na taxa de recombinação dos pares elétron/buraco fotogerados. Para isto, foram sintetizados semicondutores a base Nb2O5 pelo método peróxido oxidante sob tratamento hidrotérmico. As deposições de Fe ou Cu foram realizadas pelo método de pulverização catódica (“magnetron sputtering”), uma vez que esta técnica permite a deposição de nanopartículas com elevado grau de pureza. A adição de nanopartículas de Fe ou Cu na superfície do Nb2O5 reduziu significativamente a taxa de recombinação dos pares elétronburaco fotogerados, devido à maior separação espacial das cargas fotogeradas por meio da formação de heteroestrutura entre os materiais, o que resultou em um aumento significativo na fotoconversão do CO2. Os materiais modificados com Fe apresentaram elevada produção de monóxido de carbono (CO) (356,6 µmol/g). Além disso, a calcinação do semicondutor Nb2O5 e a sua modificação com Fe favoreceu a produção de metano (5,13 µmol/g), metanol (75,78 µmol/g) e ácido acético (69,07 µmol/g). Já os materiais modificados com Cu apresentaram elevada produção de metano (52,5 µmol/g) e metanol (628,01 µmol/g), comparado ao Nb2O5 e aos catalisadores modificados com Fe. A maior eficiência de conversão para os materiais modificados com Cu está relacionada com a capacidade do Cu aprisionar os elétrons fotogerados na banda de condução do Nb2O5.Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)CNPQ: 133520/2019-6porUniversidade Federal de São CarlosCâmpus São CarlosPrograma de Pós-Graduação em Engenharia Química - PPGEQUFSCarAttribution-NonCommercial-NoDerivs 3.0 Brazilhttp://creativecommons.org/licenses/by-nc-nd/3.0/br/info:eu-repo/semantics/openAccessPentóxido de nióbio (Nb2O5)Pulverização catódicaFotorredução de CO2CO2 photoreductionMagnetron sputteringNiobium pentoxide (Nb2O5)ENGENHARIAS::ENGENHARIA QUIMICAFotoconversão de CO2 em produtos com valor agregadoPhotoconversion of CO2 into value-added productsinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesis600600a4f7d812-9746-4ce4-935f-4ba23cfc691dreponame:Repositório Institucional da UFSCARinstname:Universidade Federal de São Carlos (UFSCAR)instacron:UFSCARORIGINALDissertação - Ana Luiza Alves.pdfDissertação - Ana Luiza Alves.pdfapplication/pdf3075385https://repositorio.ufscar.br/bitstream/ufscar/14383/1/Disserta%c3%a7%c3%a3o%20-%20Ana%20Luiza%20Alves.pdfdf865156ccbe0fea42d3e4774937eaabMD51Carta Comprovante.pdfCarta Comprovante.pdfapplication/pdf460283https://repositorio.ufscar.br/bitstream/ufscar/14383/3/Carta%20Comprovante.pdfc058ac938a68668462ab8d1699c07e2bMD53CC-LICENSElicense_rdflicense_rdfapplication/rdf+xml; charset=utf-8811https://repositorio.ufscar.br/bitstream/ufscar/14383/4/license_rdfe39d27027a6cc9cb039ad269a5db8e34MD54TEXTDissertação - Ana Luiza Alves.pdf.txtDissertação - Ana Luiza Alves.pdf.txtExtracted texttext/plain166046https://repositorio.ufscar.br/bitstream/ufscar/14383/5/Disserta%c3%a7%c3%a3o%20-%20Ana%20Luiza%20Alves.pdf.txt4c96b79e9c5647f413ed021e49cd79a4MD55Carta Comprovante.pdf.txtCarta Comprovante.pdf.txtExtracted texttext/plain1https://repositorio.ufscar.br/bitstream/ufscar/14383/7/Carta%20Comprovante.pdf.txt68b329da9893e34099c7d8ad5cb9c940MD57THUMBNAILDissertação - Ana Luiza Alves.pdf.jpgDissertação - Ana Luiza Alves.pdf.jpgIM Thumbnailimage/jpeg6152https://repositorio.ufscar.br/bitstream/ufscar/14383/6/Disserta%c3%a7%c3%a3o%20-%20Ana%20Luiza%20Alves.pdf.jpg548d2e30f471093d59a4dfebb0cddc97MD56Carta Comprovante.pdf.jpgCarta Comprovante.pdf.jpgIM Thumbnailimage/jpeg11905https://repositorio.ufscar.br/bitstream/ufscar/14383/8/Carta%20Comprovante.pdf.jpg8d0209ec3edd7b1406ce7e1495349d7dMD58ufscar/143832023-09-18 18:32:11.722oai:repositorio.ufscar.br:ufscar/14383Repositório InstitucionalPUBhttps://repositorio.ufscar.br/oai/requestopendoar:43222023-09-18T18:32:11Repositório Institucional da UFSCAR - Universidade Federal de São Carlos (UFSCAR)false |
| dc.title.por.fl_str_mv |
Fotoconversão de CO2 em produtos com valor agregado |
| dc.title.alternative.eng.fl_str_mv |
Photoconversion of CO2 into value-added products |
| title |
Fotoconversão de CO2 em produtos com valor agregado |
| spellingShingle |
Fotoconversão de CO2 em produtos com valor agregado Faria, Ana Luiza Alves Pentóxido de nióbio (Nb2O5) Pulverização catódica Fotorredução de CO2 CO2 photoreduction Magnetron sputtering Niobium pentoxide (Nb2O5) ENGENHARIAS::ENGENHARIA QUIMICA |
| title_short |
Fotoconversão de CO2 em produtos com valor agregado |
| title_full |
Fotoconversão de CO2 em produtos com valor agregado |
| title_fullStr |
Fotoconversão de CO2 em produtos com valor agregado |
| title_full_unstemmed |
Fotoconversão de CO2 em produtos com valor agregado |
| title_sort |
Fotoconversão de CO2 em produtos com valor agregado |
| author |
Faria, Ana Luiza Alves |
| author_facet |
Faria, Ana Luiza Alves |
| author_role |
author |
| dc.contributor.authorlattes.por.fl_str_mv |
http://lattes.cnpq.br/1261471786703960 |
| dc.contributor.author.fl_str_mv |
Faria, Ana Luiza Alves |
| dc.contributor.advisor1.fl_str_mv |
Nogueira, Francisco Guilherme Esteves |
| dc.contributor.advisor1Lattes.fl_str_mv |
http://lattes.cnpq.br/8117497993539795 |
| dc.contributor.authorID.fl_str_mv |
67051268-4ed8-4e71-a7a1-15183da11f05 |
| contributor_str_mv |
Nogueira, Francisco Guilherme Esteves |
| dc.subject.por.fl_str_mv |
Pentóxido de nióbio (Nb2O5) Pulverização catódica Fotorredução de CO2 |
| topic |
Pentóxido de nióbio (Nb2O5) Pulverização catódica Fotorredução de CO2 CO2 photoreduction Magnetron sputtering Niobium pentoxide (Nb2O5) ENGENHARIAS::ENGENHARIA QUIMICA |
| dc.subject.eng.fl_str_mv |
CO2 photoreduction Magnetron sputtering Niobium pentoxide (Nb2O5) |
| dc.subject.cnpq.fl_str_mv |
ENGENHARIAS::ENGENHARIA QUIMICA |
| description |
In recent decades, due to population and industrial growth, the energy demand has increased significantly. However, much of the energy consumed comes from burning fossil fuels, which emit large amounts of gases that can increase the temperature of the earth. Among these gases, carbon dioxide (CO2) stands out as one of the main causes of the greenhouse effect. Thus, the need to develop new economically and energetically viable technologies for energy production through clean and sustainable routes is essential. Among these technologies, the CO2 photoconversion process (“artificial photosynthesis”) in products with added value can be highlighted. However, the vast majority of semiconductors developed to date, for this purpose, have a high rate of recombination of their photogenerated electron/hole pairs, thus reducing the efficiency of the process. In order to improve the photocatalytic efficiency, this project aimed to develop semiconductors based on niobium pentoxide (Nb2O5) modified with iron (Fe) or copper (Cu) for photoreduction of CO2, aiming to increase the photocatalytic efficiency of the material through the reduction in the rate of recombination of the photogenerated electron/hole pairs. For this, semiconductors based on Nb2O5 were synthesized by the oxidizing peroxide method under hydrothermal treatment. The depositions of Fe or Cu were carried out by the method of sputtering ("magnetron sputtering") since this technique allows the deposition of nanoparticles with a high degree of purity. The addition of Fe or Cu nanoparticles on the Nb2O5 surface significantly reduced the rate of recombination of the photogenerated electron/hole pairs, due to the greater spatial separation of the photogenerated charges through the formation of heterostructure between the materials, which resulted in a significant increase in CO2 photoconversion. The materials modified with Fe showed high production of carbon monoxide (CO) (356.6 µmol/g). In addition, the calcination of the Nb2O5 semiconductor and its modification with Fe favored the production of methane (5.13 µmol/g), methanol (75.78 µmol/g) and acetic acid (69.07 µmol/g). On the other hand, Cu-modified materials showed a high production of methane (52.5 µmol/g) and methanol (628.01 µmol/g), compared to Nb2O5 and the catalysts modified with Fe The higher conversion efficiency for materials modified with Cu is related to the ability of Cu to trap the photogenerated electrons in the conduction band of Nb2O5. |
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FARIA, Ana Luiza Alves. Fotoconversão de CO2 em produtos com valor agregado. 2021. Dissertação (Mestrado em Engenharia Química) – Universidade Federal de São Carlos, São Carlos, 2021. Disponível em: https://repositorio.ufscar.br/handle/ufscar/14383. |
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