TATIANE DA SILVA NASCIMENTO

TATIANE DA SILVA NASCIMENTO

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Cobalt doping effects in zinc oxide
2024 - PEREIRA, LUCIANO F.D.; FERREIRA, WANDERSON L.; CORREA, BRUNO S.; COSTA, MESSIAS S.; COSTA, CLEIDILANE S.; FILHO, ARNALDO A.M.; SALES, TATIANE S.N.; BOSCH-SANTOS, BRIANNA; SCHELL, JULIANA; BURIMOVA, ANASTASIA; SAXENA, RAJENDRA N.; CABRERA-PASCA, GABRIEL A.; CARBONARI, ARTUR W.
In this paper, we investigate the solubility effects of Co in ZnO (Zn1−xCoxO, where x = 0, 0.03, 0.05, 0.1, 0.2, 0.25, 0.4, 0.8, and 1) by combining the results of perturbed angular correlation (PAC) spectroscopy using highly diluted 111Cd as probe nuclei and ab initio calculations based on spin-density functional theory (SDFT). This combined approach enables us to characterize the local structure around Cd ions, where, through PAC technique, it was possible to measure the EFG as a function of temperature and Co concentration and thereby monitor the changes in the structure and the Co solubility threshold in ZnO and the ZnO/CoO/Co3O4 mixed phase. The full-potential linear augmented plane wave plus local orbital (APW+lo) formalism were used here to describe the electronic structure of the supercells, including the atomic relaxations. These Ab initio calculations show an interesting behavior of the Cd and Co impurity levels in the band structure of ZnO, which explains the experimental results in terms of the origin of EFG and the evidence of ferromagnetic response.
Local crystalline structure of doped semiconductor oxides characterized by perturbed angular correlations
2022 - BURIMOVA, ANASTASIA; CARBONARI, ARTUR W.; LIMA, NICOLE P. de; MIRANDA FILHO, ARNALDO A.; SOUZA, ALEXANDRE P. dos S.; SALES, TATIANE da S.N.; FERREIRA, WANDERSON L.; PEREIRA, LUCIANO F.D.; CORREA, BRUNO S.; SAXENA, RAJENDRA N.
Doping semiconductor oxides with trace amounts of non-native elements can improve their properties such as bandgap and conductivity. The lack of local techniques makes the precise characterization of these materials difficult. Among the few techniques capable of providing local characterization, those based on hyperfine interactions at probe nuclei have the advantage of being well established, probing the material homogeneously and completely, thus investigating different regions of material. Some of these techniques are also quite sensitive even at extremely low dopant concentrations. The perturbed angular correlation technique, combined with first-principles calculations, has recently been shown to be a powerful method for characterizing doped semiconductor oxides. In this paper, we present a brief review of the unique information extracted from the semiconductor investigation with such a complex approach, including semiconductor oxides doped with cadmium and other elements. A strong relationship between the local environment, including electronic structure, and the nature of the dopant and the native element of the doped oxides is also shown.
Investigation of hyperfine interactions of multiferroic oxides Bi0.85La0.15FeO3 through perturbed angular correlation spectroscopy
2021 - MIRANDA FILHO, A.A.; SALES, T.S.N.; OTUBO, L.; CABRERA-PASCA, G.A.; CARBONARI, A.W.
Local inspection of magnetic properties in GdMnIn by measuring hyperfine interactions
2021 - CABRERA-PASCA, G.A.; MAGNO, J.F.; FERREIRA, W.L.; CAMPOS, A.C.; BOSCH-SANTOS, B.; SALES, T.S.N.; PEREIRA, L.F.D.; BURIMOVA, A.; SAXENA, R.N.; FREITAS, R.S.; CARBONARI, A.W.
GdMnIn is reported to crystallize in the hexagonal MgNi2-type structure presenting a spin-glass behavior with no magnetic order attributed to the triangular spin frustration of magnetic ions. In the present work, FC-ZFC magnetization, specific heat and AC susceptibility measurements along with the local magnetic exchange measured by hyperfine interactions at In sites are used to investigate the magnetic behavior in GdMnIn compound. The ZFC-FC magnetization curves exhibit an inflection which was ascribed to the antiferromagnetic transition at TN= 145 K. These curves also give an indication of thermomagnetic irreversibility at 118 K, which along with the absence of inflection in specific heat results might be associated to spin-glass behavior. Results of AC susceptibility and magnetic hyperfine field measured using 111In(111Cd) probe nuclei carried out by perturbed angular correlations (PAC) technique did not show evidence of spin-glass behavior. The thermomagnetic irreversibility in FC-ZFC curves along with results of hyerfine interactions suggest the presence of magneto-crystalline anisotropy effects and a weak long-range coupling in GdMnIn.
Magnetic field at Ce impurities in La sites of La0.5Ba0.5MnO3 double perovskites
2019 - BOSCH-SANTOS, B.; NASCIMENTO, N.M.; SAIKI, M.; CORREA, E.L.; SALES, T.S.N.; PEREIRA, L.F.D.; CABRERA-PASCA, G.A.; SAXENA, R.N.; SCHELL, J.; CARBONARI, A.W.
Due to its rich variety of electromagnetic properties, such as a colossal magnetoresistance, charge and orbital ordering, and metal-insulator transition, the magnetic behavior in La0.5Ba0.5MnO3 double perovskite compounds has been investigated by several techniques, however more experimental data, especially from atomic resolution techniques, are still necessary to understand such complex behavior. In this paper, we have used a nuclear and short-range technique, the Perturbed Angular Correlation (PAC) spectroscopy, to investigate the magnetic hyperfine interaction at the 140Ce and 111Cd probe nuclei as impurities occupying La sites. This double perovskite samples were synthesized by Sol- Gel route. The crystal structure was determined by X-ray diffraction and the analyses showed that this method produced perovskite oxides with cubic structure in Pm-3m space group and the homogeneity was determined by Transmission Electron Microscopy (TEM). The local properties investigated by PAC spectroscopy revealed a ferromagnetic transition temperature above 300 K and a pure antiferromagnetic interaction below 100 K. Moreover, it also indicates an anomalous behavior of the temperature dependence of magnetic hyperfine field at La sites measured with 140Ce probe nuclei, which can be ascribed to the contribution of 4f band of Ce to Magnetic Hyperfine Field (Bhf) at low temperatures due to the increase in its localized character.
Estudo de interações hiperfinas em materiais nanoestruturados de HfO2 dopados com Si, Fe, Y, La e HfSiO4 dopado com Fe pela técnica de correlação angular gama-gama perturbada
2018 - SALES, TATIANE da S.N.
No presente trabalho é apresentado o estudo sistemático das interações hiperfinas, em compostos de óxido de háfnio (HfO2) dopados com silício (Si), ferro (Fe), ítrio (Y) e lantânio (La) em porcentagens de 5% e 10%. A técnica aplicada para esse estudo foi o de correlação angular gama-gama perturbada (CAP) utilizando o núcleo de prova 181Hf(181Ta). Além disso, o estudo também foi estendido para o háfnio (Hf) na estrutura de ortosilicatos (HfSiO4) dopado com 20% Fe e na forma de filmes finos de HfO2. As amostras foram produzidas pelo método sol gel e para os filmes finos foi utilizado a técnica de spin coating. A caracterização estrutural destas amostras foi pela técnica de difração de raios-X e para morfologia foi utilizada as microscopias eletrônicas de varredura e transmissão. O núcleo de prova 181Hf(181Ta) presente na rede cristalina de todos os compostos forneceu os resultados da frequências de quadrupolo elétrico para o sitio monoclínico do óxido de háfnio (m- HfO2) bem caracterizado e um segundo sítio relacionado as vacâncias de oxigênio e defeitos na rede cristalina do HfO2. Além disso, as medições CAP que foram realizadas para as amostras de HfO2 dopadas, apresentam a formação de um terceiro sítio que está relacionado com o tamanho da partícula e a dopagem. Para o composto de HfSiO4 os resultados CAP indicam a temperatura de difusão do silício (Si), por volta de 700 °C e para o Fe- HfSiO4 mostra a influência do ferro na nucleação do composto que é superior em 30% em relação ao HfSiO4. Para as amostras de filmes finos os resultados CAP evidenciam os efeitos de superfície observado pelo surgimento de um terceiro sítio, ao longo do tratamento térmico 200 - 900 °C durante a medida. Este sítio também foi observado em temperaturas ambiente.
Effect of silicon doping in HFO2 nanoparticles from an atomic view
2017 - SALES, TATIANE S.N.; CARBONARI, ARTUR W.
We have prepared the Hafnium Oxide (HfO2) nanoparticles (NPs) doped with 5% at. of silicon (Si) using the sol-gel chemical method. Nuclear quadrupole interactions at Hf sites were investigated by perturbed γ–γ angular correlations (PAC) spectroscopy using 181Ta as probe nuclei. This method is based on the hyperfine interactions between the nuclear moments of the probe nuclei with extra-nuclear magnetic fields or electric field gradients (EFGs). In the case of quadrupolar electric interactions, experimental measurements give the quadrupole frequency Q with respective distribution () as well the asymmetry parameter  of of of the EFG. The hyperfine parameters were measured within the range from 200°C to 900°C. The structural and morphological characterization of the samples were carried out by X-ray diffraction and scanning electron microscopy (SEM) with electron back scattering diffraction (EBSD). PAC results show a major site fraction of probe nuclei, that was assigned to the monoclinic phase of HfO2, with approximately 60% population, which increases when the temperature of heat treatment increases. The XRD results showed a single phase with the expected monoclinic structure for the as-prepared samples indicating that Si atoms are at substitutional Hf sites.