Caracterização e separação física de placas de circuito impresso de computadores obsoletos

The unbridled consumption of electronic equipment associated with fast immersion of new technologies on the market leads to the accelerated growth of electronic waste. Such waste mostly contains printed circuit boards in its structure. Printed circuit boards have many metals, including heavy metals, being highly toxic. Electronic waste is discarded improperly and indiscriminately, usually without any previous treatment and with other municipal waste, contaminating the environment and causing serious problems to human health. Beyond these metals, there are also precious metals and high value-added basis, that can be recovered and recycled, reducing the exploration of natural resources. Thus, due to the high growth potential and reuse of these waste treatment processes, characterization and separation were applied to the printed circuit boards. The printed circuit boards were subjected to physical treatments such as dismantling, crushing, sizing separation, magnetic separation and chemical treatments such as pyrolysis and leaching. Through characterization process (pyrolysis and leaching) the proportions of the components of the granulometric range were determined: 46,08% of metals; 23,32% of polymers and 30,60% of ceramics. It was also observed by particle size separation that metal components tend to concentrate in coarse fractions, while polymeric and ceramic components in fine fractions. From the magnetic separation process was obtained 12,08% of magnetic material and 82,33% of non-magnetic material.

Síntese e caracterização de nanopartículas magnéticas de Co e Ni com aplicação em magneto hipertermia

Nanoparticles are importante for the study of new phenomena and for the development of new applications. Metallic magnetic nanoparticles like Cobalt and Nickel are important for their applications in nanoscience and nanotechnology. In this work, we report on the synthesis and characterization of Ni and Co nanoparticles. The nanoparticles were prepared by the modi- ed sol-gel method and were formed in the pore-network of the biopolymer quitosan. The reduction occurred in absence of H2 ux. The metallic particles and their monoxides have a face-centered- cubic structure. The metallic particles sizes ranged from 59 to 77 nm and from 19 to 50 nm for Ni and Co, respectively. Their monoxides chemically passivated the metallic cores, and after several weeks we have not observed further increase in oxidation. The synthesis method was tuned to obtain mainly the ferromagnetic phase. The system behaves like a core/shell structure with a ferromagnetic core and an antiferromagnetic shell. Exchange bias e ect was observed at temperatures below the Néel temperature. Both systems were submitted to an alternated magnetic eld and the heat released by the particles increased the temperature to 140°C in an interval of 5 min. Similar studies in samples dispersed in water increased the temperatures to 40-59°C, these results suggest that these materials are candidates for magnetic hyperthermia.

Estudo do aproveitamento de resíduos PAE no desenvolvimento de materiais cerâmicos

This work presents a new ceramic material obtained through the incorporation of solid waste from the steel industry and known as dedusting powder PAE - in ceramic formulations based on clay, potassium and sodium feldspars, kaolin and talc. Formulations were prepared with ceramic residue levels of 0% (basic mass - MB), 2%, 4% and 8%, subjected to firing at temperatures of 1000 ° C, 1050ºC, 1100ºC and 1150ºC for periods of 15 min. and 120 min. The physicchemical and mechanical properties of these ceramic formulations were determined based on the firing temperature, residence time in the oven and the percentage of waste. Since the physicochemical and mechanical properties of the sintered materials were evaluated by chemical analysis techniques (fluorescence X-rays - FRX), particle size distribution, specific surface area, apparent density, structural analysis by diffraction of X-rays (DRX) and characterization of surface by scanning electron microscopy (SEM). The magnetic response characteristics and the pattern of magnetic ferrites of the samples were analyzed in the assay conditions, having noticed that the saturation magnetic susceptibility depend on the sintering temperature of the material and it is associated with its crystal structure. From the analysis results, it was concluded that the ceramic material with better physical and mechanical properties is obtained when the 8% from PAE residue is added to standard formulation under the burn time of 15 minutes and temperature of 1150ºC.

Produção e estudo de multicamadas magnéticas em substrato flexível

Magnetic multilayers are the support for the production of spintronic devices, representing great possibilities for miniaturized electronics industry. having the control to produce devices as well as their physical properties from simple multilayer films to highly complex at the atomic scale is a fundamental need for progress in this area, in recent years has highlighted the production of organic and flexible spintronic devices. Because of this trend, the objective of this work was to produce magnetic multilayers deposited on flexible substrate using magnetron sputtering dc technique. Three sets of samples were prepared. The first set composed of the trilayer type CoFe=Cu(t)=CoFe with different thickness of the metallic spacer. The second set consists of two multilayer subgroups, CoFe=Cu in the presence of IrMn layer as a buffer and the next multilayer as cap layer. The third set consisting of non-magnetostrictive multilayer permalloy (Py=Ta and Py=Ag) on flexible substrate and glass. The magnetic properties, were investigated by magnetometry measurements, ferromagnetic resonance and magnetoimpedance (MI), measurements were carried out at room temperature with the magnetic field always applied on the sample plane. For structural analysis, the diffraction X-ray was used. The results of the trilayer showed a high uniaxial anisotropy field for the sample with a spacer of 4.2 nm. For the multilayer in the presence of IrMn layer as the buffer, the study of static and dynamic magnetic properties showed isotropic behavior. For the multilayer in the presence of IrMn layer as a cap, the results of static magnetic properties of the magnetic behavior exhibited a spin valve structure type. However there was a disagreement with results of ferromagnetic resonance measurements, which was justified by the contribution of the unstable and stable grain to the rotatable anisotropy and Exchange bias in ferromagneticantiferromagnetic interface. The third serie of samples showed similar results behavior for the MI Ag multilayers spacer in both substrates. There are also significant MI changes with the Ta spacer, possible associated with the compressive stress on the flexible substrate sample.

Frases magnéticas, polaritons magnéticos e modos magnetostáticos em filmes e cristais magnônicos de terras-raras

Conselho Nacional de Desenvolvimento Científico e Tecnológico - CNPq

Frases magnéticas, polaritons magnéticos e modos magnetostáticos em filmes e cristais magnônicos de terras-raras

Conselho Nacional de Desenvolvimento Científico e Tecnológico - CNPq

Sistemas de cálculo, análise e operação virtual: interferências de campos elétricos e magnéticos produzidas por estações radio base de acesso múltiplo por divisão de código em banda larga - WCDMA

In this work it was developed mathematical resolutions taking as parameter maximum intensity values for the interference analysis of electric and magnetic fields and was given two virtual computer system that supports families of CDMA and WCDMA technologies. The first family were developed computational resources to solve electric and magnetic field calculations and power densities in Radio Base stations , with the use of CDMA technology in the 800 MHz band , taking into account the permissible values referenced by the Commission International Protection on non-Ionizing Radiation . The first family is divided into two segments of calculation carried out in virtual operation. In the first segment to compute the interference field radiated by the base station with input information such as radio channel power; Gain antenna; Radio channel number; Operating frequency; Losses in the cable; Attenuation of direction; Minimum Distance; Reflections. Said computing system allows to quickly and without the need of implementing instruments for measurements, meet the following calculated values: Effective Radiated Power; Sector Power Density; Electric field in the sector; Magnetic field in the sector; Magnetic flux density; point of maximum permissible exposure of electric field and power density. The results are shown in charts for clarity of view of power density in the industry, as well as the coverage area definition. The computer module also includes folders specifications antennas, cables and towers used in cellular telephony, the following manufacturers: RFS World, Andrew, Karthein and BRASILSAT. Many are presented "links" network access "Internet" to supplement the cable specifications, antennas, etc. . In the second segment of the first family work with more variables , seeking to perform calculations quickly and safely assisting in obtaining results of radio signal loss produced by ERB . This module displays screens representing propagation systems denominated "A" and "B". By propagating "A" are obtained radio signal attenuation calculations in areas of urban models , dense urban , suburban , and rural open . In reflection calculations are present the reflection coefficients , the standing wave ratio , return loss , the reflected power ratio , as well as the loss of the signal by mismatch impedance. With the spread " B" seek radio signal losses in the survey line and not targeted , the effective area , the power density , the received power , the coverage radius , the conversion levels and the gain conversion systems radiant . The second family of virtual computing system consists of 7 modules of which 5 are geared towards the design of WCDMA and 2 technology for calculation of telephone traffic serving CDMA and WCDMA . It includes a portfolio of radiant systems used on the site. In the virtual operation of the module 1 is compute-: distance frequency reuse, channel capacity with noise and without noise, Doppler frequency, modulation rate and channel efficiency; Module 2 includes computes the cell area, thermal noise, noise power (dB), noise figure, signal to noise ratio, bit of power (dBm); with the module 3 reaches the calculation: breakpoint, processing gain (dB) loss in the space of BTS, noise power (w), chip period and frequency reuse factor. Module 4 scales effective radiated power, sectorization gain, voice activity and load effect. The module 5 performs the calculation processing gain (Hz / bps) bit time, bit energy (Ws). Module 6 deals with the telephone traffic and scales 1: traffic volume, occupancy intensity, average time of occupancy, traffic intensity, calls completed, congestion. Module 7 deals with two telephone traffic and allows calculating call completion and not completed in HMM. Tests were performed on the mobile network performance field for the calculation of data relating to: CINP , CPI , RSRP , RSRQ , EARFCN , Drop Call , Block Call , Pilot , Data Bler , RSCP , Short Call, Long Call and Data Call ; ECIO - Short Call and Long Call , Data Call Troughput . As survey were conducted surveys of electric and magnetic field in an ERB , trying to observe the degree of exposure to non-ionizing radiation they are exposed to the general public and occupational element. The results were compared to permissible values for health endorsed by the ICNIRP and the CENELEC .

Trasporte eléctrico y magnetismo en sistemas electrodo - aislante - electrodo: hacia el desarrollo de dispositivos del tipo juntura tunel.

La presente tesis es un estudio dedicado a la optimización y desarrollo de sistemas del tipo juntura túnel. La metodología utilizada para la realización de la tesis consistió, en primer lugar, en la optimización de las componentes independientes de la juntura túnel: electrodo y barrera aislante. Posteriormente se optimizaron los procesos de fabricación para el desarrollo y caracterización de dispositivos del tipo juntura túnel en su forma final. En la primera parte de la tesis se analizan detalladamente los resultados obtenidos de la caracterización eléctrica y topografica de barreras aislantes en sistemas electrodo - barrera. Los sistemas bicapas estudiados, GdBa_2Cu_3_7/SrTiO_3, Nb/Ba_0,05Sr_0,95TiO_3 y YBa_2Cu_3O_7/SrTiO_3, fueron caracterizados utilizando un microscopio de fuerza atómica en modo conductor. Se propuso un modelo fenomenológico basado en los resultados experimentales, que permitió la obtención de parámetros críticos para el desarrollo de dispositivos del tipo juntura túnel con nuevas funcionalidades. La información obtenida de la caracterización de los sistemas bicapas (homogeneidad de crecimiento, baja densidad de defectos y de pinholes) indican un muy buen control de los parámetros de crecimiento de las barreras. Por otro lado, se obtuvo un buen comportamiento aislante para espesores mayores a 2 nm sin la presencia de pinholes en la barrera. La similitud en la estequiometría de las barreras (SrTiO_3) permitió comparar los distintos sistemas estudiados en términos de conductividad eléctrica. Se verificó que el modelo fenomenológico permite comparar la conductividad eléctrica de los sistemas mediante uno de los parámetros definidos en el modelo fenomenológico (obtenido de los ajustes lineales de las curvas I(V)). De los 3 sistemas estudiados, las bicapas GdBa_2Cu_3O_7/SrTiO_3 presentaron un mayor valor de longitud de atenuación de los portadores de carga a través de la barrera y una muy baja densidad de defectos superficiales. Las bicapas YBa_2Cu_3O_7/SrTiO_3 y Nb/Ba_0,05Sr_0,95TiO_3 permitieron validar el modelo fenomenológico propuesto para el análisis de la respuesta corriente - voltaje obtenida con el microscopio de fuerza atómica en modo conductor. La segunda parte de la tesis abarca conceptos de magnetismo y microfabricación para el desarrollo de junturas túnel magnéticas. Durante la caracterización de las películas ferromagnéticas individuales de Co_90Fe_10 (CoFe) se logró aumentar valor del campo coercitivo de films de 10 nm de espesor al incrementar la temperatura de depósito. Esto se debe a un aumento del tamaño de grano de los films. El aumento de la temperatura del sustrato durante el crecimiento influye en la morfología y las propiedades magnéticas de los films de CoFe favoreciendo la formación de granos y la pérdida del eje preferencial de magnetización. Estos resultados permitieron la fabricación de sistemas Co_90Fe_10/M_gO/Co_90Fe_10 con distintas orientaciones relativas accesibles con campo magnético para el estudio del acople magnético entre los films de CoFe. La caracterización eléctrica de estos sistemas, particularmente la respuesta corriente - voltaje obtenida con el microscopio de fuerza atómica en modo conductor, indicó que las propiedades de transporte eléctrico de las junturas presentan un alto grado de reproducibilidad. Se analizó además la inuencia del sustrato utilizado en la corriente túnel que atraviesa la barrera aislante. Por otro lado, se discuten los fenómenos relacionados a la optimización de las propiedades magnéticas de electrodos ferromagnéticos para la fabricación de junturas túnel Co_90Fe_10/MgO/Co_90Fe_10 y Co_90Fe_10/MgO /Fe_20Ni_80. En particular, se estudió el acople magnético entre capas ferromagnéticas y la inuencia del sustrato utilizado para el crecimiento de las tricapas. La optimización de los electrodos magnéticos involucró el análisis de la inuencia de la presencia de un aislante entre dos capas magnéticas en el acople de los electrodos. Se logró el desacople de films de 10 nm de Co_90Fe_10 y Fe_20Ni_80 separados por un espaciador de MgO de 2 nm. Finalmente se detallan los pasos para la fabricación de una red de junturas túnel magnéticas y su caracterización eléctrica a bajas temperaturas. El sistema estudiado fue la tricapa Co_90Fe_10 (10 nm)/M_gO (8 nm)/ Fe_20Ni_80 (10 nm) crecido sobre un sustrato de M_gO. La caracterización eléctrica confirmó la buena calidad de la junturas fabricadas. Las junturas obtenidas presentaron un comportamiento altamente resistivo (~ MΩ). Las mediciones de la corriente túnel en función de la temperatura permitieron descartar la presencia de pinholes en la barrera. El transporte de los portadores de carga es por efecto túnel a través de la barrera aislante. Las curvas de conductancia diferencial permitieron calcular el valor medio de la altura de la barrera de potencial (φ = 3.1 eV) a partir del modelo de Brinkman. Los resultados obtenidos en cada uno de los capítulos se complementan y son relevantes para la optimización de junturas túnel, debido a que brindan información crítica para su correcto funcionamiento. En la presente tesis se lograron obtener los primeros avances para la fabricación de arreglos de junturas túnel que permitan el desarrollo de dispositivos.

Trasporte eléctrico y magnetismo en sistemas electrodo - aislante - electrodo: hacia el desarrollo de dispositivos del tipo juntura tunel.

La presente tesis es un estudio dedicado a la optimización y desarrollo de sistemas del tipo juntura túnel. La metodología utilizada para la realización de la tesis consistió, en primer lugar, en la optimización de las componentes independientes de la juntura túnel: electrodo y barrera aislante. Posteriormente se optimizaron los procesos de fabricación para el desarrollo y caracterización de dispositivos del tipo juntura túnel en su forma final. En la primera parte de la tesis se analizan detalladamente los resultados obtenidos de la caracterización eléctrica y topografica de barreras aislantes en sistemas electrodo - barrera. Los sistemas bicapas estudiados, GdBa_2Cu_3_7/SrTiO_3, Nb/Ba_0,05Sr_0,95TiO_3 y YBa_2Cu_3O_7/SrTiO_3, fueron caracterizados utilizando un microscopio de fuerza atómica en modo conductor. Se propuso un modelo fenomenológico basado en los resultados experimentales, que permitió la obtención de parámetros críticos para el desarrollo de dispositivos del tipo juntura túnel con nuevas funcionalidades. La información obtenida de la caracterización de los sistemas bicapas (homogeneidad de crecimiento, baja densidad de defectos y de pinholes) indican un muy buen control de los parámetros de crecimiento de las barreras. Por otro lado, se obtuvo un buen comportamiento aislante para espesores mayores a 2 nm sin la presencia de pinholes en la barrera. La similitud en la estequiometría de las barreras (SrTiO_3) permitió comparar los distintos sistemas estudiados en términos de conductividad eléctrica. Se verificó que el modelo fenomenológico permite comparar la conductividad eléctrica de los sistemas mediante uno de los parámetros definidos en el modelo fenomenológico (obtenido de los ajustes lineales de las curvas I(V)). De los 3 sistemas estudiados, las bicapas GdBa_2Cu_3O_7/SrTiO_3 presentaron un mayor valor de longitud de atenuación de los portadores de carga a través de la barrera y una muy baja densidad de defectos superficiales. Las bicapas YBa_2Cu_3O_7/SrTiO_3 y Nb/Ba_0,05Sr_0,95TiO_3 permitieron validar el modelo fenomenológico propuesto para el análisis de la respuesta corriente - voltaje obtenida con el microscopio de fuerza atómica en modo conductor. La segunda parte de la tesis abarca conceptos de magnetismo y microfabricación para el desarrollo de junturas túnel magnéticas. Durante la caracterización de las películas ferromagnéticas individuales de Co_90Fe_10 (CoFe) se logró aumentar valor del campo coercitivo de films de 10 nm de espesor al incrementar la temperatura de depósito. Esto se debe a un aumento del tamaño de grano de los films. El aumento de la temperatura del sustrato durante el crecimiento influye en la morfología y las propiedades magnéticas de los films de CoFe favoreciendo la formación de granos y la pérdida del eje preferencial de magnetización. Estos resultados permitieron la fabricación de sistemas Co_90Fe_10/M_gO/Co_90Fe_10 con distintas orientaciones relativas accesibles con campo magnético para el estudio del acople magnético entre los films de CoFe. La caracterización eléctrica de estos sistemas, particularmente la respuesta corriente - voltaje obtenida con el microscopio de fuerza atómica en modo conductor, indicó que las propiedades de transporte eléctrico de las junturas presentan un alto grado de reproducibilidad. Se analizó además la inuencia del sustrato utilizado en la corriente túnel que atraviesa la barrera aislante. Por otro lado, se discuten los fenómenos relacionados a la optimización de las propiedades magnéticas de electrodos ferromagnéticos para la fabricación de junturas túnel Co_90Fe_10/MgO/Co_90Fe_10 y Co_90Fe_10/MgO /Fe_20Ni_80. En particular, se estudió el acople magnético entre capas ferromagnéticas y la inuencia del sustrato utilizado para el crecimiento de las tricapas. La optimización de los electrodos magnéticos involucró el análisis de la inuencia de la presencia de un aislante entre dos capas magnéticas en el acople de los electrodos. Se logró el desacople de films de 10 nm de Co_90Fe_10 y Fe_20Ni_80 separados por un espaciador de MgO de 2 nm. Finalmente se detallan los pasos para la fabricación de una red de junturas túnel magnéticas y su caracterización eléctrica a bajas temperaturas. El sistema estudiado fue la tricapa Co_90Fe_10 (10 nm)/M_gO (8 nm)/ Fe_20Ni_80 (10 nm) crecido sobre un sustrato de M_gO. La caracterización eléctrica confirmó la buena calidad de la junturas fabricadas. Las junturas obtenidas presentaron un comportamiento altamente resistivo (~ MΩ). Las mediciones de la corriente túnel en función de la temperatura permitieron descartar la presencia de pinholes en la barrera. El transporte de los portadores de carga es por efecto túnel a través de la barrera aislante. Las curvas de conductancia diferencial permitieron calcular el valor medio de la altura de la barrera de potencial (φ = 3.1 eV) a partir del modelo de Brinkman. Los resultados obtenidos en cada uno de los capítulos se complementan y son relevantes para la optimización de junturas túnel, debido a que brindan información crítica para su correcto funcionamiento. En la presente tesis se lograron obtener los primeros avances para la fabricación de arreglos de junturas túnel que permitan el desarrollo de dispositivos.

Coupling of magnetic, strain and electric polarization fields in the structure of multiferroic material

The comprehensive study on the coupling of magnetism, electrical polarization and the crystalline lattice with the off-stoichiometric effects in self-doped multiferroic hexagonal h-LuMnxO3±δ (0.92≤x≤1.12) ceramic oxides was carried out for the PhD work. There is a complex coupling of the three ferroic degrees. The cancelation of the magnetic moments of ions in the antiferromagnetic order, electric polarization with specific vortex/antivortex topology and lattice properties have pushed researchers to find out ways to disclose the underlying physics and chemistry of magneto-electric and magneto-elastic couplings of h-RMnO3 multiferroic materials. In this research work, self-doping of Lu-sites or Mn-sites of h-LuMnxO3±δ ceramics prepared via solid state route was done to pave a way for deeper understanding of the antiferromagnetic transition, the weak ferromagnetism often reported in the same crystalline lattices and the ferroelectric properties coupled to the imposed lattice changes. Accordingly to the aim of the PhD thesis, the objectives set for the sintering study in the first chapter on experimental results were two. First, study of sintering off-stoichiometric samples within conditions reported in the bibliography and also extracted from the phase diagrams of the LuMnxO3±δ, with a multiple firings ending with a last high temperature step at 1300ºC for 24 hours. Second, explore longer annealing times of up to 240 hours at the fixed temperature of 1300 ºC in a search for improving the properties of the solid solution under study. All series of LuMnxO3±δ ceramics for each annealing time were characterized to tentatively build a framework enabling comparison of measured properties with results of others available in literature. XRD and Rietveld refinement of data give the evolution the lattice parameters as a function to x. Shrinkage of the lattice parameters with increasing x values was observed, the stability limit of the solid solution being determined by analysis of lattice parameters. The evolution of grain size and presence of secondary phases have been investigated by means of TEM, SEM, EDS and EBSD techniques. The dependencies of grain growth and regression of secondary phases on composition x and time were further characterized. Magnetic susceptibility of samples and magnetic irreversibility were extensively examined in the present work. The dependency of magnetic susceptibility, Neel ordering transition and important magnetic parameters are determined and compared to observation in other multiferroics in the following chapter of the thesis. As a tool of high sensitivity to detect minor traces of the secondary phase hausmannite, magnetic measurements are suggested for cross-checking of phase diagrams. Difficulty of previous studies on interpreting the magnetic anomaly below 43 K in h-RMnO3 oxides was discussed and assigned to the Mn3O4 phase, with supported of the electron microscopy. Magneto-electric coupling where AFM ordering is coupled to dielectric polarization is investigated as a function of x and of sintering condition via frequency and temperature dependent complex dielectric constant measurements in the final chapter of the thesis. Within the limits of solid solubility, the crystalline lattice of off-stoichiometric ceramics was shown to preserve the magneto-electric coupling at TN. It represents the first research work on magneto-electric coupling modified by vacancy doping to author’s knowledge. Studied lattices would reveal distortions at the atomic scale imposed by local changes of x dependent on sintering conditions which were widely inspected by using TEM/STEM methods, complemented with EDS and EELS spectroscopy all together to provide comprehensive information on cross coupling of distortions, inhomogeneity and electronic structure assembled and discussed in a specific chapter. Internal interfaces inside crystalline grains were examined. Qualitative explanations of the measured magnetic and ferroelectric properties were established in relation to observed nanoscale features of h-LuMnxO3±δ ceramics. Ferroelectric domains and topological defects are displayed both in TEM and AFM/PFM images, the later technique being used to look at size, distribution and switching of ferroelectric domains influenced by vacancy doping at the micron scale bridging to complementary TEM studies on the atomic structure of ferroelectric domains. In support to experimental study, DFT simulations using Wien2K code have been carried out in order to interpret the results of EELS spectra of O K-edge and to obtain information on the cation hybridization to oxygen ions. The L3,2 edges of Mn is used to access the oxidation state of the Mn ions inside crystalline grains. In addition, rehybridization driven ferroelectricity is also evaluated by comparing the partial density of states of the orbitals of all ions of the samples, also the polarization was calculated and correlated to the off-stoichiometric effect.

Efeito da radiação micro-ondas na sinterização em fases sólida e líquida de pós de aço inoxidável 3I6L

Tese submetida à Universidade de Coimbra, Faculdade de Ciências e Tecnologia e aprovada em provas públicas para a obtenção do Grau de Doutor em Engenharia Mecânica (especialidade de Ciência dos Materiais)

Síntese de sensores, funcionalização de nanopartículas e fibras óticas para reconhecimento de aniões

O trabalho descrito nesta dissertação envolve a síntese e caracterização de novos macrociclos tetrapirrólicos e afins com potencial aplicação como quimiossensores de aniões, tanto em solução como quando suportados em diferentes materiais. As porfirinas e ftalocianinas ocupam um lugar de destaque nesta dissertação, pelo que no primeiro capítulo, é feita uma revisão bibliográfica acerca das suas metodologias de síntese bem como das suas principais características e aplicações, nomeadamente como quimiossensores de aniões. No segundo capítulo é discutida a síntese e caracterização dos compostos porfirínicos e ftalocianinicos com grupos amina ou poliamina, posteriormente utilizados como hospedeiros de aniões. Descrevem-se, pormenorizadamente, os métodos de síntese, purificação e caracterização estrutural dos diversos compostos sintetizados. No terceiro capítulo realizaram-se os estudos de complexação com aniões em solução e determinaram-se as respetivas constantes de afinidade. Os compostos sintetizados apresentam capacidade de interagir com diferentes aniões. As porfirinas testadas apresentam elevadas constantes de afinidade para o anião di-hidrogenofosfato, mesmo em soluções aquosas quando testadas com cristais piezoelétricos. No caso das ftalocianinas verificou-se que estas interagem com vários aniões e apresentam propriedades cromogénicas, podendo mesmo distinguir aniões cianeto em soluções contendo água. No quarto capítulo estudou-se a imobilização dos quimiossensores, que demonstraram maior eficácia nos estudos de reconhecimento em solução, em diferentes materiais. Primeiro foi estudada a imobilização dos quimiossensores em nanopartículas de sílica (com e sem núcleo magnético) e testada a sua capacidade como sensor de aniões em solução. Numa segunda parte foi estudada a imobilização em fibras óticas. Estas, além das suas excecionais propriedades físico-químicas, têm a vantagem de poderem ser integradas em diferentes estruturas e/ou equipamentos de análise. Na ultima parte desta dissertação encontra-se a descrição da síntese e caracterização de novos conjugados porfirina-C60-OligoDNA com potencial aplicação em transferência eletrónica. Foram sintetizados e caracterizados novos compostos porfirina-OligoDNA e C60-OligoDNA. Esta parte do trabalho foi realizada no “Institute of Advanced Energy” na Universidade de Quioto, Japão.

Critical magnetic elds in superconducting systems with semi-metallic bands

In this work, we study the Zeeman splitting effects in the parallel magnetic field versus temperature phase diagram of two-dimensional superconductors with one graphene-like band and the orbital effects of perpendicular magnetic fields in isotropic two-dimensional semi-metallic superconductors. We show that when parallel magnetic fields are applied to graphene and as the intraband interaction decreases to a critical value, the width of the metastability region present in the phase diagram decreases, vanishing completely at that critical value. In the case of two-band superconductors with one graphene-like band, a new critical interaction, associated primarily with the graphene-like band, is required in order for a second metastability region to be present in the phase diagram. For intermediate values of this interaction, a low-temperature first-order transition line bifurcates at an intermediate temperature into a first-order transition between superconducting phases and a second-order transition line between the normal and the superconducting states. In our study on the upper critical fields in generic semi-metallic superconductors, we find that the pair propagator decays faster than that of a superconductor with a metallic band. As result, the zero field band gap equation does not have solution for weak intraband interactions, meaning that there is a critical intraband interaction value in order for a superconducting phase to be present in semi-metallic superconductors. Finally, we show that the out-of-plane critical magnetic field versus temperature phase diagram displays a positive curvature, contrasting with the parabolic-like behaviour typical of metallic superconductors.

Desenvolvimento de equipamento para estimular a propriocepção utilizando ímãs permanentes

This study developed the Magnetic Proprioceptive Stimulator – MPS at the Technological Federal University of Parana - UTFPR to stimulate, record and quantify the proprioceptive activity of the shoulder joint, using permanent magnets. A pilot study was conducted to investigate the proprioceptive stimulation generated by MPS. The results of this study show that the magnetic and mechanical forces generated by permanent magnets can change the static and dynamic stability of the shoulder joint. The angular changes of the shoulder joint during the stimulation of proprioception were photographed, videotaped and analyzed by vector editing program. The joint movements caused by the action of the magnets were recorded by an optical sensor installed in the MPS and displayed in a graphical interface for analyzing the proprioceptive dynamics. The study concluded that the Magnetic Proprioceptive Stimulator is safe, effective to stimulate proprioception and features high economic viability.

Atividade β-D-N-Acetilglucosaminidásica de enzimas imobilizadas extraídas da Artemia franciscana e possíveis aplicações biotecnológicas

A β-D-N-acetilglucosaminidase extracted and partially isolated from crustacean Artemia franciscana by ammonium sulfate precipitation and filtration gel chromatography Bio Gel A 1.5m. the enzyme was immobilized on ferromagnetic Dacron yielding a insoluble active derivative with 5.0 units/mg protein and 10.35% of the soluble enzyme activity. β-D-N-acetilglucosaminidase-ferromagnetic Dacron was easily removed from the reaction mixture by a magnetic field, it was reused for ten times without loss in its activity. The ferromagnetic Dacron was better activated at pH 5.0. The particles visualized at scanning electron microscope (SEM) had presented different sizes, varying between 721nm and 100µm. Infra red confirmed immobilization on support, as showed by primary amino peaks at 1640 and 1560 cm-1 . The immobilize enzyme presented Km of 2.32 ± 0.48 mM and optimum temperature of 50°C. Bought presented the same thermal stable of the soluble enzyme and larger enzymatic activity at pH 5.5. β-D-N-acetilglucosaminidase-Dacron ferromagnético showed sensible for some íons as the silver (AgNO3), with loss of activity. The β-D-N acetilglucosaminidase activity for mercury chloride (HgCl2), whom is one of the most toxic substance joined in nature, it was presented activity already diminished at 0,01mM and lost total activity at 4mM, indicating sensitivity for this type of metal. β-D-N-acetilglucosaminidase-ferromagnetic Dacron showed degradative capacity on heparan sulfate, the enzyme still demonstrated degradative capacity on heparan sulphate, suggesting a possible application to produce fractions of this glycosaminoglycan