Propriedades estruturais e eletroquímicas de espinélios de lítio e manganês dopados para uso em baterias de lítio
| Ano de defesa: | 2005 |
|---|---|
| Autor(a) principal: | |
| Orientador(a): | |
| Banca de defesa: | |
| Tipo de documento: | Tese |
| Tipo de acesso: | Acesso aberto |
| Idioma: | por |
| Instituição de defesa: |
Universidade Federal de São Carlos
|
| Programa de Pós-Graduação: |
Programa de Pós-Graduação em Engenharia Química - PPGEQ
|
| Departamento: |
Não Informado pela instituição
|
| País: |
BR
|
| Palavras-chave em Português: | |
| Área do conhecimento CNPq: | |
| Link de acesso: | https://repositorio.ufscar.br/handle/20.500.14289/3846 |
Resumo: | The spinels investigated in the present work were obtained by solid state reaction at 750 ºC for 72 h among the precursors ε-MnO2, LiOH and the respective oxides/salt of the doping ions. In order to control the particles size, all the spinels were milled in a ball milling for 30 min. The mechanical milling, associated or not to further calcination, was also used for obtaining the pure spinel LiMn2O4. The different obtained spinels were characterized by the average manganese valence (n), X ray diffractometry, electronic scanning microscopy, particles size distribution and specific superficial area. From the X ray diffractograms, spinels of single cubic phase belong to the Fd3m space group were identified. The calculated values for the unity cell parameter (a) were lower for the doped spinels (8,221 Å at 8,229 Å) than for the pure one (8,234 Å), decreasing in the following order: a(Li1,05Ga0,02Mn1,98O4) > a(Li1,05Co0,02Mn1,98O4) > a(Li1,05Al0,02Mn1,98O4) > a(Li1,05M0,02Mn1,98O3,98S0,02) > a(Li1,05M0,02Mn1,98O3,98F0,02). The values of n were higher for the doped spinels (3,56 3,50) than for the pure one (3,53 ± 0,01), decreasing in the following order: n(Li1,05Ga0,02Mn1,98O4) > n(Li1,05Co0,02Mn1,98O4) > n(Li1,05Al0,02Mn1,98O4) > n(Li1,05M0,02Mn1,98O3,98F0,02) > n(Li1,05M0,02Mn1,98O3,98S0,02). The mechanical milling after calcination changed the spinel particles in three aspects: formation of nanometer-scale particles, generation of lattice strain and partial oxidation of manganese ions. Before calcination, it allowed obtaining of pure spinel LiMn2O4 with highly disordered lattice structure, nanometer particles and high number of structural defects. A gel polymer electrolyte of the polyacrylonitrile (PAN)/polyvinylacrylate (PVA) was developed with different mixtures of organic solvents and lithium salts. From impedance measurements, the highest value of ionic conductivity (1,47 x 10-3 S cm-1) was obtained, at 25 oC, for the electrolyte prepared from the mixture (1:1) of ethyl (EC) and dimethyl (DMC) carbonates containing 1 mol L-1 of lithium tetrafluoroborate (LiBF4). Cyclic voltammetric measurements showed that this gel electrolyte only oxidizes at potentials close to 5 V vs. Li/Li+. In the charge and discharge tests, the cathodes of the doped spinels presented values of specific discharge capacity decreasing in the following order: C(Li1,05Al0,02Mn1,98S3,02O3,98) > C(Li1,05Al0,02Mn1,98F3,02O3,98) > C(Li1,05Ga0,02Mn1,98S3,02O3,98) > C(Li1,05Ga0,02Mn1,98F3,02O3,98) > C(Li1,05Co0,02Mn1,98S3,02O3,98) > C(Li1,05Co0,02Mn1,98F3,02O3,98). Although the Li1,05Al0,02Mn1,98S3,02O3,98 cathode presented the highest initial capacity value (126 mA h g-1), the Li1,05Ga0,02Mn1,98S3,02O3,98 cathode presented the lowest capacity fading (from 120 mA h g-1 to 115 mA h g-1, that is, only 4%) after three hundred cycles of charge and discharge. |
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Amaral, Fábio Augusto doBocchi, Nerilsohttp://lattes.cnpq.br/79939005691813661c0a1c16-ca20-4394-bf74-bc1b21a692792016-06-02T19:55:20Z2007-07-102016-06-02T19:55:20Z2005-09-01https://repositorio.ufscar.br/handle/20.500.14289/3846The spinels investigated in the present work were obtained by solid state reaction at 750 ºC for 72 h among the precursors ε-MnO2, LiOH and the respective oxides/salt of the doping ions. In order to control the particles size, all the spinels were milled in a ball milling for 30 min. The mechanical milling, associated or not to further calcination, was also used for obtaining the pure spinel LiMn2O4. The different obtained spinels were characterized by the average manganese valence (n), X ray diffractometry, electronic scanning microscopy, particles size distribution and specific superficial area. From the X ray diffractograms, spinels of single cubic phase belong to the Fd3m space group were identified. The calculated values for the unity cell parameter (a) were lower for the doped spinels (8,221 Å at 8,229 Å) than for the pure one (8,234 Å), decreasing in the following order: a(Li1,05Ga0,02Mn1,98O4) > a(Li1,05Co0,02Mn1,98O4) > a(Li1,05Al0,02Mn1,98O4) > a(Li1,05M0,02Mn1,98O3,98S0,02) > a(Li1,05M0,02Mn1,98O3,98F0,02). The values of n were higher for the doped spinels (3,56 3,50) than for the pure one (3,53 ± 0,01), decreasing in the following order: n(Li1,05Ga0,02Mn1,98O4) > n(Li1,05Co0,02Mn1,98O4) > n(Li1,05Al0,02Mn1,98O4) > n(Li1,05M0,02Mn1,98O3,98F0,02) > n(Li1,05M0,02Mn1,98O3,98S0,02). The mechanical milling after calcination changed the spinel particles in three aspects: formation of nanometer-scale particles, generation of lattice strain and partial oxidation of manganese ions. Before calcination, it allowed obtaining of pure spinel LiMn2O4 with highly disordered lattice structure, nanometer particles and high number of structural defects. A gel polymer electrolyte of the polyacrylonitrile (PAN)/polyvinylacrylate (PVA) was developed with different mixtures of organic solvents and lithium salts. From impedance measurements, the highest value of ionic conductivity (1,47 x 10-3 S cm-1) was obtained, at 25 oC, for the electrolyte prepared from the mixture (1:1) of ethyl (EC) and dimethyl (DMC) carbonates containing 1 mol L-1 of lithium tetrafluoroborate (LiBF4). Cyclic voltammetric measurements showed that this gel electrolyte only oxidizes at potentials close to 5 V vs. Li/Li+. In the charge and discharge tests, the cathodes of the doped spinels presented values of specific discharge capacity decreasing in the following order: C(Li1,05Al0,02Mn1,98S3,02O3,98) > C(Li1,05Al0,02Mn1,98F3,02O3,98) > C(Li1,05Ga0,02Mn1,98S3,02O3,98) > C(Li1,05Ga0,02Mn1,98F3,02O3,98) > C(Li1,05Co0,02Mn1,98S3,02O3,98) > C(Li1,05Co0,02Mn1,98F3,02O3,98). Although the Li1,05Al0,02Mn1,98S3,02O3,98 cathode presented the highest initial capacity value (126 mA h g-1), the Li1,05Ga0,02Mn1,98S3,02O3,98 cathode presented the lowest capacity fading (from 120 mA h g-1 to 115 mA h g-1, that is, only 4%) after three hundred cycles of charge and discharge.Os espinélios investigados no presente trabalho foram obtidos por reação em estado sólido, a 750 ºC por 72 h, entre os precursores ε-MnO2, LiOH e respectivos óxidos/sal dos íons dopantes. Para controlar o tamanho de partículas, todos os espinélios foram moídos em moinho de bolas por 30 min. A moagem mecânica, associada ou não à posterior calcinação, também foi usada para obter o espinélio puro LiMn2O4. Os diferentes espinélios sintetizados foram caracterizados pela valência média do manganês (n), difratometria de raios X, microscopia eletrônica de varredura, distribuição de tamanho de partículas e área superficial específica. A partir dos difratogramas de raios X, identificou-se espinélios de fase cúbica pertencente ao grupo espacial Fd3m. Os valores calculados de parâmetro de célula unitária (a) para os espinélios dopados (8,221 Å - 8,229 Å) foram menores que para o espinélio puro (8,234 Å), diminuindo na seguinte ordem: a(Li1,05Ga0,02Mn1,98O4) > a(Li1,05Co0,02Mn1,98O4) > a(Li1,05Al0,02Mn1,98O4) > a(Li1,05M0,02Mn1,98O3,98S0,02) > a(Li1,05M0,02Mn1,98O3,98F0,02). Os valores de n dos espinélios dopados (3,56 3,50) foram maiores que o do puro (3,53 ± 0,01), diminuindo na seguinte ordem: n(Li1,05Ga0,02Mn1,98O4) > n(Li1,05Co0,02Mn1,98O4) > n(Li1,05Al0,02Mn1,98O4) > n(Li1,05M0,02Mn1,98O3,98F0,02) > n(Li1,05M0,02Mn1,98O3,98S0,02). A moagem mecânica posterior à calcinação alterou as partículas de espinélio em três aspectos: formação de partículas em escala nanométrica, geração de distorção da rede cristalina e oxidação parcial dos íons manganês. Antes da calcinação, permitiu a obtenção do espinélio puro LiMn2O4 com estrutura cristalina altamente desordenada, partículas nanométricas e grande número de defeitos estruturais. Um eletrólito polimérico gelificado de poliacrilonitrila (PAN)/polivinilacrilato (PVA) foi desenvolvido com diferentes misturas de solventes orgânicos e sais de lítio. A partir de medidas de impedância, o maior valor de condutividade iônica (1,47 x 10- 3 S cm-1) foi obtido, a 25 oC, para o eletrólito preparado a partir da mistura (1:1) dos carbonatos de etileno (EC) e dimetileno (DMC), contendo tetrafluoroborato de lítio (LiBF4) 1 mol L-1. Medidas de voltametria cíclica mostraram que este eletrólito gelificado somente se oxida a potenciais próximos de 5 V vs. Li/Li+. Nos testes de carga e descarga, os catodos de espinélios dopados apresentaram valores de capacidade específica de descarga (C) decrescentes na seguinte ordem: C(Li1,05Al0,02Mn1,98S3,02O3,98) > C(Li1,05Al0,02Mn1,98F3,02O3,98) > C(Li1,05Ga0,02Mn1,98S3,02O3,98) > C(Li1,05Ga0,02Mn1,98F3,02O3,98) > C(Li1,05Co0,02Mn1,98S3,02O3,98) > C(Li1,05Co0,02Mn1,98F3,02O3,98). Embora o catodo de Li1,05Al0,02Mn1,98S3,02O3,98 tenha apresentado o maior valor de capacidade (126 mA h g-1), o catodo de Li1,05Ga0,02Mn1,98S3,02O3,98 apresentou a menor queda de capacidade (de 120 mA h g-1 para 115 mA h g-1, isto é, somente 4%) após trezentos ciclos de carga e descarga.application/pdfporUniversidade Federal de São CarlosPrograma de Pós-Graduação em Engenharia Química - PPGEQUFSCarBRAcumuladoresBaterias de lítioEletrodos de inserçãoÓxido de manganêsEletrólito sólidoEletrólito poliméricoCIENCIAS EXATAS E DA TERRA::QUIMICAPropriedades estruturais e eletroquímicas de espinélios de lítio e manganês dopados para uso em baterias de lítioStructural and electrochemical properties of doped spinels for use in lithium batteriesinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/doctoralThesis-1-1372dc9cb-3636-4983-999d-2dc205d64ffbinfo:eu-repo/semantics/openAccessreponame:Repositório Institucional da UFSCARinstname:Universidade Federal de São Carlos (UFSCAR)instacron:UFSCARTEXTTeseFAA.pdf.txtTeseFAA.pdf.txtExtracted texttext/plain103568https://repositorio.ufscar.br/bitstreams/bf832196-56ad-4cf9-8ef2-437da4e610ee/download7010f7053776bfba1b092c0c45c23553MD53falseAnonymousREADORIGINALTeseFAA.pdfapplication/pdf3028789https://repositorio.ufscar.br/bitstreams/7a382759-9262-4d3e-b8ae-33938053f9aa/download3f5d6ad235e817cd1ee8e5e686a1dd40MD51trueAnonymousREADTHUMBNAILTeseFAA.pdf.jpgTeseFAA.pdf.jpgIM Thumbnailimage/jpeg9384https://repositorio.ufscar.br/bitstreams/f4f747aa-6374-40e1-9828-cbf8e1b45526/download3221e3e03e039f0afb3480ff0ef90f6bMD52falseAnonymousREAD20.500.14289/38462025-02-12 12:34:31.153open.accessoai:repositorio.ufscar.br:20.500.14289/3846https://repositorio.ufscar.brRepositório InstitucionalPUBhttps://repositorio.ufscar.br/oai/requestrepositorio.sibi@ufscar.bropendoar:43222025-02-12T15:34:31Repositório Institucional da UFSCAR - Universidade Federal de São Carlos (UFSCAR)false |
| dc.title.por.fl_str_mv |
Propriedades estruturais e eletroquímicas de espinélios de lítio e manganês dopados para uso em baterias de lítio |
| dc.title.alternative.eng.fl_str_mv |
Structural and electrochemical properties of doped spinels for use in lithium batteries |
| title |
Propriedades estruturais e eletroquímicas de espinélios de lítio e manganês dopados para uso em baterias de lítio |
| spellingShingle |
Propriedades estruturais e eletroquímicas de espinélios de lítio e manganês dopados para uso em baterias de lítio Amaral, Fábio Augusto do Acumuladores Baterias de lítio Eletrodos de inserção Óxido de manganês Eletrólito sólido Eletrólito polimérico CIENCIAS EXATAS E DA TERRA::QUIMICA |
| title_short |
Propriedades estruturais e eletroquímicas de espinélios de lítio e manganês dopados para uso em baterias de lítio |
| title_full |
Propriedades estruturais e eletroquímicas de espinélios de lítio e manganês dopados para uso em baterias de lítio |
| title_fullStr |
Propriedades estruturais e eletroquímicas de espinélios de lítio e manganês dopados para uso em baterias de lítio |
| title_full_unstemmed |
Propriedades estruturais e eletroquímicas de espinélios de lítio e manganês dopados para uso em baterias de lítio |
| title_sort |
Propriedades estruturais e eletroquímicas de espinélios de lítio e manganês dopados para uso em baterias de lítio |
| author |
Amaral, Fábio Augusto do |
| author_facet |
Amaral, Fábio Augusto do |
| author_role |
author |
| dc.contributor.authorlattes.por.fl_str_mv |
http://lattes.cnpq.br/7993900569181366 |
| dc.contributor.author.fl_str_mv |
Amaral, Fábio Augusto do |
| dc.contributor.advisor1.fl_str_mv |
Bocchi, Nerilso |
| dc.contributor.authorID.fl_str_mv |
1c0a1c16-ca20-4394-bf74-bc1b21a69279 |
| contributor_str_mv |
Bocchi, Nerilso |
| dc.subject.por.fl_str_mv |
Acumuladores Baterias de lítio Eletrodos de inserção Óxido de manganês Eletrólito sólido Eletrólito polimérico |
| topic |
Acumuladores Baterias de lítio Eletrodos de inserção Óxido de manganês Eletrólito sólido Eletrólito polimérico CIENCIAS EXATAS E DA TERRA::QUIMICA |
| dc.subject.cnpq.fl_str_mv |
CIENCIAS EXATAS E DA TERRA::QUIMICA |
| description |
The spinels investigated in the present work were obtained by solid state reaction at 750 ºC for 72 h among the precursors ε-MnO2, LiOH and the respective oxides/salt of the doping ions. In order to control the particles size, all the spinels were milled in a ball milling for 30 min. The mechanical milling, associated or not to further calcination, was also used for obtaining the pure spinel LiMn2O4. The different obtained spinels were characterized by the average manganese valence (n), X ray diffractometry, electronic scanning microscopy, particles size distribution and specific superficial area. From the X ray diffractograms, spinels of single cubic phase belong to the Fd3m space group were identified. The calculated values for the unity cell parameter (a) were lower for the doped spinels (8,221 Å at 8,229 Å) than for the pure one (8,234 Å), decreasing in the following order: a(Li1,05Ga0,02Mn1,98O4) > a(Li1,05Co0,02Mn1,98O4) > a(Li1,05Al0,02Mn1,98O4) > a(Li1,05M0,02Mn1,98O3,98S0,02) > a(Li1,05M0,02Mn1,98O3,98F0,02). The values of n were higher for the doped spinels (3,56 3,50) than for the pure one (3,53 ± 0,01), decreasing in the following order: n(Li1,05Ga0,02Mn1,98O4) > n(Li1,05Co0,02Mn1,98O4) > n(Li1,05Al0,02Mn1,98O4) > n(Li1,05M0,02Mn1,98O3,98F0,02) > n(Li1,05M0,02Mn1,98O3,98S0,02). The mechanical milling after calcination changed the spinel particles in three aspects: formation of nanometer-scale particles, generation of lattice strain and partial oxidation of manganese ions. Before calcination, it allowed obtaining of pure spinel LiMn2O4 with highly disordered lattice structure, nanometer particles and high number of structural defects. A gel polymer electrolyte of the polyacrylonitrile (PAN)/polyvinylacrylate (PVA) was developed with different mixtures of organic solvents and lithium salts. From impedance measurements, the highest value of ionic conductivity (1,47 x 10-3 S cm-1) was obtained, at 25 oC, for the electrolyte prepared from the mixture (1:1) of ethyl (EC) and dimethyl (DMC) carbonates containing 1 mol L-1 of lithium tetrafluoroborate (LiBF4). Cyclic voltammetric measurements showed that this gel electrolyte only oxidizes at potentials close to 5 V vs. Li/Li+. In the charge and discharge tests, the cathodes of the doped spinels presented values of specific discharge capacity decreasing in the following order: C(Li1,05Al0,02Mn1,98S3,02O3,98) > C(Li1,05Al0,02Mn1,98F3,02O3,98) > C(Li1,05Ga0,02Mn1,98S3,02O3,98) > C(Li1,05Ga0,02Mn1,98F3,02O3,98) > C(Li1,05Co0,02Mn1,98S3,02O3,98) > C(Li1,05Co0,02Mn1,98F3,02O3,98). Although the Li1,05Al0,02Mn1,98S3,02O3,98 cathode presented the highest initial capacity value (126 mA h g-1), the Li1,05Ga0,02Mn1,98S3,02O3,98 cathode presented the lowest capacity fading (from 120 mA h g-1 to 115 mA h g-1, that is, only 4%) after three hundred cycles of charge and discharge. |
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2005 |
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2005-09-01 |
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2007-07-10 2016-06-02T19:55:20Z |
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2016-06-02T19:55:20Z |
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Universidade Federal de São Carlos |
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