Estudo de monocamadas e bicamadas de grafeno dopadas com metais alcalinos e halogênios via DFT
| Ano de defesa: | 2010 |
|---|---|
| Autor(a) principal: | |
| Orientador(a): | |
| Banca de defesa: | |
| Tipo de documento: | Dissertação |
| Tipo de acesso: | Acesso aberto |
| Idioma: | por |
| Instituição de defesa: |
Não Informado pela instituição
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| Programa de Pós-Graduação: |
Não Informado pela instituição
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| Departamento: |
Não Informado pela instituição
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| País: |
Não Informado pela instituição
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| Palavras-chave em Português: | |
| Link de acesso: | http://www.repositorio.ufc.br/handle/riufc/11919 |
Resumo: | In this work we present a study of the doping of graphene (mono and bi-layer) with atoms of the alkali metal and halogen families. The charge transfer and binding energy between the dopant and the graphene were calculated under the light of the Density Functional Theory using the SIESTA code. The effect of the interaction between the dopant and the graphene to its electronic structure was also analized, focusing on a possible metal-insulator transition. Both the monolayer and the bilayer graphene sheets were doped with lithium (Li), sodium (Na) and potassium (K), among the alkali metals; and with chlorine (Cl) and iodine (I), among the halogens. Furthermore, in the case of the bilayer graphene, we also studied the effect of doping each sheet with a different atom (Li and Cl). For the monolayer graphene, none of the dopants were able to open an energy gap in the graphene electronic structure. This suggests that the charge transfer does not change the hybridization of the carbon atoms in the graphene. On the other hand, for the bilayer graphene, the interaction with either of the doping atoms was able to give rise to an energy gap. However, the charge transfer changed the Fermi energy in such way that there was always a considerable amount of free charges. The exception is in the case of the bilayer graphene doped with both lithium and chlorine, for which the Fermi level stayed in the middle of the energy band gap, characterizing a semiconducting nature to the system. |
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Lima, Igor Pires deBarros, Eduardo Bedê2015-05-07T14:45:05Z2015-05-07T14:45:05Z2010LIMA, I. P. Estudo de monocamadas e bicamadas de grafeno dopadas com metais alcalinos e halogênios via DFT. 2010. 69 f. Dissertação (Mestrado em Física) - Centro de Ciências, Universidade Federal do Ceará, Fortaleza, 2010.http://www.repositorio.ufc.br/handle/riufc/11919In this work we present a study of the doping of graphene (mono and bi-layer) with atoms of the alkali metal and halogen families. The charge transfer and binding energy between the dopant and the graphene were calculated under the light of the Density Functional Theory using the SIESTA code. The effect of the interaction between the dopant and the graphene to its electronic structure was also analized, focusing on a possible metal-insulator transition. Both the monolayer and the bilayer graphene sheets were doped with lithium (Li), sodium (Na) and potassium (K), among the alkali metals; and with chlorine (Cl) and iodine (I), among the halogens. Furthermore, in the case of the bilayer graphene, we also studied the effect of doping each sheet with a different atom (Li and Cl). For the monolayer graphene, none of the dopants were able to open an energy gap in the graphene electronic structure. This suggests that the charge transfer does not change the hybridization of the carbon atoms in the graphene. On the other hand, for the bilayer graphene, the interaction with either of the doping atoms was able to give rise to an energy gap. However, the charge transfer changed the Fermi energy in such way that there was always a considerable amount of free charges. The exception is in the case of the bilayer graphene doped with both lithium and chlorine, for which the Fermi level stayed in the middle of the energy band gap, characterizing a semiconducting nature to the system.No presente trabalho, mostramos um estudo sobre o grafeno (monocamada e bicamada) quando este encontra-se dopado com átomos pertencentes ao grupo dos metais alcalinos e ao grupo dos halogênios. A transferência de cargas e a energia de interação entre o átomo dopante e o grafeno foram calculados a partir da Teoria do Funcional da densidade (DFT) utilizando o código SIESTA. Além disso, analisou-se o efeito dessa interação na estrutura eletrônica do grafeno, focando principalmente em uma possível transição metal-isolante. Tanto a monocamada como a bicamada de grafeno foram dopadas com os átomos de lítio (Li), sódio (Na), potássio (K), dentre os metais alcalinos; e cloro (Cl) e iodo (I), dentre os halogênios. Além disso, no caso da bicamada de grafeno, foi feito um estudo no qual dois átomos dopantes (Li e Cl) atuam sobre a mesma. No caso da monocamada de grafeno, nenhum dos átomos dopantes foi capaz de abrir um gap de energia. Sugerindo que esses átomos trocam cargas com o grafeno sem modificar a estrutura de hibridização do carbono. No caso da bicamada de grafeno, a interação com qualquer dos íons é suficiente para dar origem a um gap de energia. No entanto a tranferência de cargas muda a energia de Fermi, de modo a manter uma quantidade relevante de cargas livres. A exceção é no caso em que a bicamada sofre a ação de dois átomos dopantes, situação na qual a energia de Fermi se manteve no meio do gap, garantindo a natureza semicondutora a esse sistema.GrafenoMetais AlcalinosEstudo de monocamadas e bicamadas de grafeno dopadas com metais alcalinos e halogênios via DFTinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisporreponame:Repositório Institucional da Universidade Federal do Ceará (UFC)instname:Universidade Federal do Ceará (UFC)instacron:UFCinfo:eu-repo/semantics/openAccessLICENSElicense.txtlicense.txttext/plain; charset=utf-81786http://repositorio.ufc.br/bitstream/riufc/11919/2/license.txt8c4401d3d14722a7ca2d07c782a1aab3MD52ORIGINAL2010_dis_iplima.pdf2010_dis_iplima.pdfapplication/pdf1792042http://repositorio.ufc.br/bitstream/riufc/11919/1/2010_dis_iplima.pdf6504c4b1e9a29cfc8a6154a4861e09c1MD51riufc/119192019-03-27 11:17:26.71oai:repositorio.ufc.br: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Repositório InstitucionalPUBhttp://www.repositorio.ufc.br/ri-oai/requestbu@ufc.br || repositorio@ufc.bropendoar:2019-03-27T14:17:26Repositório Institucional da Universidade Federal do Ceará (UFC) - Universidade Federal do Ceará (UFC)false |
| dc.title.pt_BR.fl_str_mv |
Estudo de monocamadas e bicamadas de grafeno dopadas com metais alcalinos e halogênios via DFT |
| title |
Estudo de monocamadas e bicamadas de grafeno dopadas com metais alcalinos e halogênios via DFT |
| spellingShingle |
Estudo de monocamadas e bicamadas de grafeno dopadas com metais alcalinos e halogênios via DFT Lima, Igor Pires de Grafeno Metais Alcalinos |
| title_short |
Estudo de monocamadas e bicamadas de grafeno dopadas com metais alcalinos e halogênios via DFT |
| title_full |
Estudo de monocamadas e bicamadas de grafeno dopadas com metais alcalinos e halogênios via DFT |
| title_fullStr |
Estudo de monocamadas e bicamadas de grafeno dopadas com metais alcalinos e halogênios via DFT |
| title_full_unstemmed |
Estudo de monocamadas e bicamadas de grafeno dopadas com metais alcalinos e halogênios via DFT |
| title_sort |
Estudo de monocamadas e bicamadas de grafeno dopadas com metais alcalinos e halogênios via DFT |
| author |
Lima, Igor Pires de |
| author_facet |
Lima, Igor Pires de |
| author_role |
author |
| dc.contributor.author.fl_str_mv |
Lima, Igor Pires de |
| dc.contributor.advisor1.fl_str_mv |
Barros, Eduardo Bedê |
| contributor_str_mv |
Barros, Eduardo Bedê |
| dc.subject.por.fl_str_mv |
Grafeno Metais Alcalinos |
| topic |
Grafeno Metais Alcalinos |
| description |
In this work we present a study of the doping of graphene (mono and bi-layer) with atoms of the alkali metal and halogen families. The charge transfer and binding energy between the dopant and the graphene were calculated under the light of the Density Functional Theory using the SIESTA code. The effect of the interaction between the dopant and the graphene to its electronic structure was also analized, focusing on a possible metal-insulator transition. Both the monolayer and the bilayer graphene sheets were doped with lithium (Li), sodium (Na) and potassium (K), among the alkali metals; and with chlorine (Cl) and iodine (I), among the halogens. Furthermore, in the case of the bilayer graphene, we also studied the effect of doping each sheet with a different atom (Li and Cl). For the monolayer graphene, none of the dopants were able to open an energy gap in the graphene electronic structure. This suggests that the charge transfer does not change the hybridization of the carbon atoms in the graphene. On the other hand, for the bilayer graphene, the interaction with either of the doping atoms was able to give rise to an energy gap. However, the charge transfer changed the Fermi energy in such way that there was always a considerable amount of free charges. The exception is in the case of the bilayer graphene doped with both lithium and chlorine, for which the Fermi level stayed in the middle of the energy band gap, characterizing a semiconducting nature to the system. |
| publishDate |
2010 |
| dc.date.issued.fl_str_mv |
2010 |
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2015-05-07T14:45:05Z |
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2015-05-07T14:45:05Z |
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info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/masterThesis |
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masterThesis |
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publishedVersion |
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LIMA, I. P. Estudo de monocamadas e bicamadas de grafeno dopadas com metais alcalinos e halogênios via DFT. 2010. 69 f. Dissertação (Mestrado em Física) - Centro de Ciências, Universidade Federal do Ceará, Fortaleza, 2010. |
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http://www.repositorio.ufc.br/handle/riufc/11919 |
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LIMA, I. P. Estudo de monocamadas e bicamadas de grafeno dopadas com metais alcalinos e halogênios via DFT. 2010. 69 f. Dissertação (Mestrado em Física) - Centro de Ciências, Universidade Federal do Ceará, Fortaleza, 2010. |
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por |
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por |
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