Measurement of biologically available naphthalene in gas and aqueous phases by use of a Pseudomonas putida biosensor.

Genetically constructed microbial biosensors for measuring organic pollutants are mostly applied in aqueous samples. Unfortunately, the detection limit of most biosensors is insufficient to detect pollutants at low but environmentally relevant concentrations. However, organic pollutants with low levels of water solubility often have significant gas-water partitioning coefficients, which in principle makes it possible to measure such compounds in the gas rather than the aqueous phase. Here we describe the first use of a microbial biosensor for measuring organic pollutants directly in the gas phase. For this purpose, we reconstructed a bioluminescent Pseudomonas putida naphthalene biosensor strain to carry the NAH7 plasmid and a chromosomally inserted gene fusion between the sal promoter and the luxAB genes. Specific calibration studies were performed with suspended and filter-immobilized biosensor cells, in aqueous solution and in the gas phase. Gas phase measurements with filter-immobilized biosensor cells in closed flasks, with a naphthalene-contaminated aqueous phase, showed that the biosensor cells can measure naphthalene effectively. The biosensor cells on the filter responded with increasing light output proportional to the naphthalene concentration added to the water phase, even though only a small proportion of the naphthalene was present in the gas phase. In fact, the biosensor cells could concentrate a larger proportion of naphthalene through the gas phase than in the aqueous suspension, probably due to faster transport of naphthalene to the cells in the gas phase. This led to a 10-fold lower detectable aqueous naphthalene concentration (50 nM instead of 0.5 micro M). Thus, the use of bacterial biosensors for measuring organic pollutants in the gas phase is a valid method for increasing the sensitivity of these valuable biological devices.

A fiber optic smart sensor for studying the setting characteristics of various grades of cement

A simple, effective and inexpensive fiber optic sensor for investigating the setting characteristics of various grades of cement is described. A finite length of unsheathed multimode optical fiber laid inside the cement mix, is subjected to stress during the setting process. The microbends created on the fiber due to this stress directly influence the intensity of light propagating through the fiber. Continuous monitoring of such variations in the light output transmitted through the fiber gives a clear measure of the setting characteristics of the cement mix, thus providing a simple and elegant technique of great practical importance in the field of civil engineering. The smart fiber optic sensor described above can be incorporated into a building during the construction process itself so that continuous monitoring of the deterioration process for the entire life time of the building can be carried out.

Effect of pH on the production of dispersed Bi4Ge3O12 nanoparticles by combustion synthesis

This paper reports the production of bismuth germanate ceramic scintillator (Bi4Ge3O12) by combustion synthesis (SHS) method, focusing on the influence of the synthesis parameters on the crystalline phases and agglomeration of the nanoparticles. The synthesis and sintering conditions were investigated through thermal analysis, X-ray diffraction as function of temperature, dilatometry and scanning electron microscopy. Well-dispersed Bi4Ge3O12 powder was accomplished by the combustion of the initial solution at pH 9, followed by low temperature calcination and milling. Sintered ceramics presented relative density of 98% and single crystalline Bi4Ge3O12 phase. The luminescent properties of the ceramics were investigated by photo- and radio- luminescence measurements and reproduced the typical Bi4Ge3O12 single-crystal spectra when excited with UV, beta and X-rays. The sintered ceramics presented light output of 4.4 x 10(3) photons/McV. (c) 2008 Published by Elsevier Ltd.

The effects of exposure time on the surface microhardness of three dual-cured dental resin cements

This study evaluated the exposure time of light-curing of the polymers used for cementation on microhardness test in different storage times. The polymers (specifically called resin cements) were RelyX ARC, RelyX U100, and SET. Five specimens of each group were prepared and photo-polymerized with exposure times of 20 s and 180 s, using a LED polymerization unit with wavelength of 440 ~ 480 nm and light output was consistently 1,500 mW/cm2. The Vickers hardness test was performed in a MMT-3 Microhardness Tester. Data were submitted to ANOVA and Tukey's test (α = 0.05). The values of RelyX ARC showed statistically significant difference to groups with light exposure when considering only chemical cure (p < 0.05). The groups with light exposure (20 s and 180 s) showed no significant difference between them (p > 0.05). The RelyX U100 cured only chemically showed statistically significant difference between 48 h and 7 days (p < 0.05). The SET resin cement showed no significant difference to groups without light exposure for all storage times (p > 0.05). The values of hardening of the dual-cured resin cements improved after setting by light and chemical activation demonstrating the importance of light curing. © 2011 by the authors.

Híbridos orgânicos-inogânicos aminosilano-ácido ricinoleico

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Estudio de la fiabilidad de diodos LEDs rojos mediante ensayos acelerados

El objetivo de este Proyecto Final de Carrera es la realización de un ensayo de fiabilidad de componentes electrónicos, más concretamente de diodos LED, con el fin de estudiar su comportamiento a lo largo del tiempo de vida. Debido a la larga duración de los LEDs, un ensayo de este tipo podría durar años, por lo que es necesario realizar un ensayo acelerado que acorte significativamente el tiempo del experimento, para ello, han de someterse a esfuerzos mayores que en condiciones normales de funcionamiento. En la actualidad, los LEDs son usados en infinidad de aplicaciones, debido a sus múltiples ventajas respecto a otros sistemas de iluminación o señalización convencionales. En numerosos casos se utilizan en el exterior, soportando cambios de temperaturas y de humedad elevados, de ahí, la importancia de realizar ensayos de fiabilidad, que muestren sus posibles causas de fallo, los efectos que producen estos fallos y los aspectos de diseño, fabricación y mantenimiento que puedan afectarles. Como consecuencia del envejecimiento de los LEDs, pueden mostrar una reducción en el flujo luminoso y un empeoramiento de las propiedades cromáticas. Los LEDs utilizados en este Proyecto son de AlInGaP, rojos, de alta luminosidad. Para acelerar el ensayo, se utilizará una cámara climática que simule unas condiciones ambientales determinadas, en concreto, 85º C y 85% HR. Además, se realiza una monitorización periódica, siendo necesaria la utilización de un sistema automático de medida diseñado en LabVIEW, el cual, de manera simultánea realizará medidas y gestionará la inyección de corriente a los LEDs mientras se encuentren en el interior de la cámara climática. Se fabrican dos placas con 4 tiras de LEDs para inyectar un nivel de corriente diferente en cada una y así poder comparar la degradación en función de este parámetro. Fuera de la cámara climática se van a medir las curvas características de tensióncorriente de cada LED a una temperatura ambiente constante, fijada por un módulo Peltier. También se realizarán medidas de potencia luminosa y de espectro de emisión. Se analizarán los resultados obtenidos de cada una de las medidas y se realizará un estudio de fiabilidad y del proceso de degradación sufrido por los LEDs. Este PFC se puede dividir en las siguientes fases de trabajo, siendo el ensayo la parte más larga en el tiempo: · Búsqueda de bibliografía, documentación y normas aplicables. · Familiarización con los equipos y software, estudiando el manejo y funcionamiento de la cámara climática temperatura-humedad y el software a aplicar (LabVIEW y software del espectrómetro). · Desarrollo del hardware y sistemas necesarios para la realización del ensayo. · Realización del ensayo. · Análisis de resultados. ABSTRACT. The objective of this end of degree project is conducting an essay reliability of electronic components, more concretely LEDs, in order to study their behavior throughout its lifespan. Due to the long duration of the LEDs, a essay of this type could last for years, so it is necessary to perform an accelerated essay which significantly shorten the time of the experiment, testing should be subjected to greater efforts than in normal operation. Today, LEDs are used in many applications due to its many advantages over other conventional lighting systems or signaling. In numerous cases are used on the outside, enduring high changes in temperature and humidity, hence the importance of reliability essays, showing the possible causes of failure, the effects produced by these failures and aspects of design, manufacturing and maintenance that may affect them. As a result of the ageing of the LEDs, they may show a reduction in light output and a worsening of the chromatic properties. The LEDs used in this project are AlInGaP, red and high brightness. To speed up the essay will be used a climatic chamber to simulate specific environmental conditions, specifically 85 ° C and 85 % RH. In addition, is pe rformed a periodic monitoring using an automatic measurement system designed in LabVIEW , which , simultaneously will performed measurements and will manage the injection current to the LEDs while are inside of the climatic chamber. 4 strips of LEDs are created to inject a different level of current in each, so can compare the degradation in terms of this parameter. Out of the climatic chamber are obtained the characteristic curves of voltage-current of each LED at a constant room temperature, set by a Peltier module. Also, measures light power and the emitted spectrum. The results of each of the measures and a reliability study and degradation suffered by the LEDs will be discussed. This PFC can be divided into the following steps, the essay being the longest part: • Search bibliography, documentation and standards. • Familiarization with equipment and software, studying the management and the operation of the temperature-humidity environmental chamber and applying software (LabVIEW applications and spectrometer software). • Development of hardware and systems necessary for the conduct of the essay. • Carrying out the essay. • Analysis of results.

Implementación y análisis de luminarias LED

En este proyecto se abordan el diseño y análisis, con sus diferentes etapas, de varias configuraciones de prototipos para luminarias LED enfocadas al ámbito domestico e industrial. Se realizarán montajes sobre diferentes materiales para evaluar los resultados y decidir que soporte es más adecuado para cada circunstancia. Inicialmente expondremos el estado actual de esta tecnología y caracterizaremos, de forma preliminar, los dispositivos que vamos a utilizar para elaborar los prototipos que posteriormente analizaremos. Seguidamente detallaremos el proceso de construcción de cada prototipo, indicando especialmente las diferencias y similitudes entre ellos que, en siguientes secciones, serán analizadas. Trabajaremos con dos rangos de potencia para las luminarias. El primero de ellos se centra en obtener la máxima potencia lumínica, con valores comprendidos entre 40W y 50W, considerando un uso industrial, alumbrado público, etc. El segundo rango de potencias, se enfocará al ámbito doméstico, adecuando la temperatura de color a este entorno, para combinar la potencia, de entre 9W y 12W, con una iluminación más cálida. Finalmente someteremos los prototipos elaborados a una serie de análisis y, ante los resultados, concluiremos cuales serán aptos para el uso al que se pretenden dedicar y aquellos que deberán ser modificados. En el entorno de laboratorio, donde se llevaran a cabo análisis térmicos, eléctricos y lumínicos, emplearemos instrumental especializado para cada tipo de análisis así como su software correspondiente. A excepción de las mediciones relacionadas con el espectro de radiación lumínica, el resto serán obtenidas mediante la plataforma LabVIEW®, un completo software grafico para el desarrollo de instrumentación virtual. Como sección final, expondremos una evaluación sobre el cumplimiento de los objetivos establecidos para el proyecto, posibles mejoras o trabajos futuros y conclusiones obtenidas. ABSTRACT. This project concerns the design and analysis, with its different stages, of various configurations of LED luminaries prototypes focused on domestic and industrial environments. Mounts on different materials will be made to evaluate the results and decide which material is most appropriate for each circumstance. Initially we will expose the current state of this technology and characterize, in a preliminary way, the devices that we will use to produce the prototypes which subsequently will analyze. Later we detail the process of construction of each prototype, especially indicating the differences and similarities between them. In the following sections, we will analyze these characteristics. We will work with two power ranges for luminaries. The first one focuses on maximum light output, with values between 40W and 50W, thinking about industrial use, street lighting, etc. The second power range will focus on the domestic environment, adjusting the color temperature in this environment to combine power, between 9W and 12W, with warm lighting. Finally the prototypes will submit a series of analyzes and, with the results obtained, we conclude if will be suitable for the intended use and those that should be modified. In laboratory environment, where thermal, electrical and lighting analyzes were carried out, we will use specialized instruments for each type of analysis as well as the corresponding software. Except for measurements related to the spectrum of light radiation, the rest of information will be obtained by LabVIEW®, complete graphical development software for virtual instrumentation. As a final section, we will present an evaluation of compliance with the project objectives, possible future work, or improvements, and conclusions.

Modulation of the antibody response by Porphyromonas gingivalis and Fusobacterium nucleatum in a mouse model

Successive immunization of mice with Fusobacterium nucleatum and Porphyromonas gingivalis has been shown to modulate the specific serum IgG responses to these organisms. The aim of this study was to investigate these antibody responses further by examining the IgG subclasses induced as well as the opsonizing properties of the specific antibodies. Serum samples from BALB/c mice immunized with F. nucleatum (gp1-F), P. gingivalis (gp2-P), P. gingivalis followed by F. nucleatum (gp3-PF) F. nucleatum followed by P. gingivalis (gp4-FP) or saline alone (gp5-S) were examined for specific IgG1 (Th2) and IgG2a (Th1) antibody levels using an ELISA and the opsonizing properties measured using a neutrophil chemiluminescence assay. While IgG1 and IgG2a subclasses were induced in all immunized groups, there was a tendency towards an IgG1 response in mice immunized with P. gingivalis alone, while immunization with F. nucleatum followed by P. gingivalis induced significantly higher anti-P. gingivalis IgG2a levels than IgG1. The maximum light output due to neutrophil phagocytosis of P. gingivalis occurred at 10 min using nonopsonized bacteria. Chemiluminescence was reduced using serum-opsonized P. gingivalis and, in particular, sera from P. gingivalis-immunized mice (gp2-P), with maximum responses occurring at 40 min. In contrast, phagocytosis of immune serum-opsonized F. nucleatum demonstrated peak light output at 10 min, while that of F. nucleatum opsonized with sera from saline injected mice (gp5-S) and control nonopsonized bacteria showed peak responses at 40 min. The lowest phagocytic response occurred using gp4-FP serum-opsonized F. nucleatum. In conclusion, the results of the present study have demonstrated a systemic Th1/Th2 response in mice immunized with P. gingivalis and/or F. nucleatum with a trend towards a Th2 response in P. gingivalis-immunized mice and a significantly increased anti-P. gingivalis IgG2a (Th1) response in mice immunized with F. nucleatum prior to P. gingivalis. Further, the inhibition of neutrophil phagocytosis of immune serum-opsonized P. gingivalis was modulated by the presence of anti-F. nucleatum antibodies, while anti-P. gingivalis antibodies induced an inhibitory effect on the phagocytic response to F. nucleatum.

Optimization of microcavity OLED by varying the thickness of multi-layered mirror

We optimized the emission efficiency from a microcavity OLEDs consisting of widely used organic materials, N,N'-di(naphthalene-1-yl)-N,N'-diphenylbenzidine (NPB) as a hole transport layer and tris (8-hydroxyquinoline) (Alq(3)) as emitting and electron transporting layer. LiF/Al was considered as a cathode, while metallic Ag anode was used. TiO2 and Al2O3 layers were stacked on top of the cathode to alter the properties of the top mirror. The electroluminescence emission spectra, electric field distribution inside the device, carrier density, recombination rate and exciton density were calculated as a function of the position of the emission layer. The results show that for certain TiO2 and Al2O3 layer thicknesses, light output is enhanced as a result of the increase in both the reflectance and transmittance of the top mirror. Once the optimum structure has been determined, the microcavity OLED devices can be fabricated and characterized, and comparisons between experiments and theory can be made.

Effect of anode material and cavity design on the performance of microcavity OLEDs

We report on the effect of the replacement of the conventional ITO anode with the semitransparent metallic material on the performance of microcavity OLEDs. We performed comprehensive simulations of the emission from microcavity OLEDs consisting of widely used organic materials, N,N′-di(naphthalene-1- yl)-N,N′-diphenylbenzidine (NPB) as a hole transport layer and tris (8-hydroxyquinoline) (Alq3) as emitting and electron transporting layer. Silver and LiF/Al were considered as a cathode, while metallic (Au and Ag) anode was used and simulations were performed on devices with both the metallic and conventional ITO anode. The electroluminescence emission spectra, electric field distribution inside the device, carrier density, recombination rate and exciton density were calculated as a function of the position of the emission layer. The results show that the metallic anode enhances light output and that optimum emission from a microcavity OLED is achieved when the position of the recombination region is aligned with the antinode of the standing wave inside the cavity. The microcavity OLED devices with Ag/Ag and Ag/Au mirrors were fabricated and characterized. The experimental results have been compared to the simulations and the influence of the different anode, emission region width and position on the performance of microcavity OLEDs was discussed.

Non-standard techniques for the investigation of the visual field

The study investigated the potential applications and the limitations of non-standard techniques of visual field investigation utilizing automated perimetry. Normal subjects exhibited a greater sensitivity to kinetic stimuli than to static stimuli of identical size. The magnitude of physiological SKD was found to be largely independent of age, stimulus size, meridian and eccentricity. The absence of a dependency on stimulus size indicated that successive lateral spatial summation could not totally account for the underlying mechanism of physiological SKD. The visual field indices MD and LV exhibited a progressive deterioration during the time course of a conventional central visual field examination both for normal subjects and for ocular hypertensive patients. The fatigue effect was more pronounced in the latter stages and for the second eye tested. The confidence limits for the definition of abnormality should reflect the greater effect of fatigue on the second eye. A 330 cdm-2 yellow background was employed for blue-on-yellow perimetry. Instrument measurement range was preserved by positioning a concave mirror behind the stimulus bulb to increase the light output by 60% . The mean magnitude of SWS pathway isolation was approximately 1.4 log units relative to a 460nm stimulus filter. The absorption spectra of the ocular media exhibited an exponential increase with increase in age, whilst that of the macular pigment showed no systematic trend. The magnitude of ocular media absorption was demonstrated to reduce with increase in wavelength. Ocular media absorption was significantly greater in diabetic patients than in normal subjects. Five diabetic patients with either normal or borderline achromatic sensitivity exhibited an abnormal blue-on-yellow sensitivity; two of these patients showed no signs of retinopathy. A greater vulnerability of the SWS pathway to the diabetic disease process was hypothesized.

Multistabilities and symmetry-broken one-color and two-color states in closely coupled single-mode lasers

We theoretically investigate the dynamics of two mutually coupled, identical single-mode semi-conductor lasers. For small separation and large coupling between the lasers, symmetry-broken one-color states are shown to be stable. In this case the light outputs of the lasers have significantly different intensities while at the same time the lasers are locked to a single common frequency. For intermediate coupling we observe stable symmetry-broken two-color states, where both lasers lase simultaneously at two optical frequencies which are separated by up to 150 GHz. Using a five-dimensional model, we identify the bifurcation structure which is responsible for the appearance of symmetric and symmetry-broken one-color and two-color states. Several of these states give rise to multistabilities and therefore allow for the design of all-optical memory elements on the basis of two coupled single-mode lasers. The switching performance of selected designs of optical memory elements is studied numerically.

Medidas de eficiência energética numa indústria cerâmica

O presente relatório resulta de um estágio realizado no âmbito da eficiência energética assente no programa Galp 20-20-20 que tem por génese uma parceria entre a Universidade de Aveiro e a empresa de coberturas cerâmicas, CS – Coelho da Silva S.A. A Fábrica alvo de estudo é uma consumidora intensiva de energia, despendeu no ano de 2013 cerca de 3.768 tep. Devido aos seus processos de cozedura e secagem, apresenta uma elevada dependência de Gás Natural, representando pouco mais de 78% do consumo global da fábrica. Deste consumo de energia térmica, 83% respeita ao forno e os restantes 17% encontram-se alocados ao secador, pelo que as medidas de eficiência energética presentes neste relatório centram-se da redução deste vetor energético. São então propostas três medidas para a redução da dependência deste vetor. A primeira, incide na recuperação de calor residual presente nos gases de exaustão através da instalação de um permutador de calor. Esta medida permite uma redução do consumo na ordem dos 10% e conta com um payback de 2,3 anos resultante de uma economia anual de 150.000 €. Para este estudo foi desenvolvido um modelo dinâmico em excel que permite a simulação de diversos cenários. São também propostas mais duas intervenções que incidem na alteração do circuito térmico. Estas medidas têm um impacte mais reduzido no que respeita ao percentual de redução energético, ambas com menos de 1% de redução do consumo global da fábrica. Contudo são medidas bastante interessantes dada a sua simplicidade e contam com poupanças anuais na ordem dos 6.000 € que resultam num payback inferior a 2 meses. Paralelamente executaram-se dois estudos para a iluminação, o primeiro sugere a instalação de um modelador de tensão que reduz a potência de iluminação em 36%, implicando uma redução da iluminância de cerca de 5%. A redução da potência resulta numa economia energética na ordem dos 0,4% da energia global da instalação. Este equipamento poderá ser adquirido por completo ou em renting. Ao optar pela compra integral, o investimento será apenas ressarcido em 2,8 anos resultante de uma poupança anula de perto de 6.500 €. Caso seja por renting este não tem qualquer custo adicional e as economias monetárias são partilhadas entre a empresa que fornece o equipamento e a CS-Coelho da Silva, S.A. Por fim é sugerida a substituição de parte da iluminação atual da fábrica por tecnologia LED, com esta medida reduz-se o consumo global em 0,76%. Esta medida gera uma economia monetária na ordem dos 11.500 € sendo ressarcida em 2,1 anos.

Development of a whole cell biochip for toxicant detection.

In the development of biosensors for ecotoxicity testing it is desirable to produce a small, portable system that can be used in the field. Toxicity testing using bioluminescence is widely used in the laboratory utilising natural and genetically modified (lux/ luc-marked) bacteria and other microorganisms. It is currently not possible to use genetically manipulated microorganisms in field testing and a biosensor, therefore, that incorporates naturally luminescent organisms may be preferred. In the development of a biosensor it is aimed to use the naturally luminescent bacterium Vibrio fischeri as a toxicity detection system on a chip. The bacterium will be immobilised in a polymeric matrix. Current work deals with the optimisation of light output and light preservation within the bacterium prior to immobilisation in polyvinyl alcohol. An examination of a range of physicochemical conditions within the polymer will be made, including cell density, thickness of polymer film, growth and light induction environment, and, preservation conditions, in order to develop a testing system giving consistent results over the lifetime of the biosensor. Data will be presented on light production using different culture media for the growth of V. fischeri and retention of light under immobilised conditions. .