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Electrical and optical characterization of InP nanowire-based photodetectorsDawei, Jiang January 2014 (has links)
This thesis deals with electrical and optical characterization of p+i–n+ nanowire-based photodetectors/solar cells. I have investigated their I-V performance and found that all of them exhibit a clear rectifying behavior with an ideality factor around 2.2 at 300K. used Fourier transform infrared spectroscopy to extract their optical properties. From the spectrally resolved photocurrent data, I conclude that the main photocurrent is generated in the i-segment of the nanowire (NW) p-i-n junctions, with negligible contribution from the substrate. I also used a C-V technique to investigate the impurity/doping profiles of the NW p+-i-n+ junction. The technique has been widely used for investigations of doping profiles in planar p-n junctions, in particular with one terminal (n or p) highly doped. To verify the accuracy of the technique, I also used a planar Schottky sample with an already known doping profile for a test experiment. The result is very similar to the actual data. When we used the technique to investigate the doping level in the NWs photodetectors grown on InP substrates, the results show a very high capacitance above 800pF which most likely is due to the influence of the parasitic capacitance from the insulating layer of SiO2. Thus, a new sample design is required to investigate the doping profiles of NWs.
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Estimation of the diagnostic accuracy of organ electrodermal diagnosticsSzopinski, Jan Zbigniew 14 February 2007 (has links)
Student Number : 9402348T -
MSc(Med) dissertation -
School of Medicine -
Faculty of Health Sciences / My previous investigations have indicated that a connection exists between the state of
health of specific internal organs and the electrical characteristics of related, although
sometimes remote, skin areas. These skin areas are referred to as organ projection areas
(OPA) and include acupuncture points. Pathology of a particular organ causes a related
OPA to rectify electrical currents, once the resistance ‘breakthrough effect’ has been
induced in the skin. The ‘breakthrough effect’ is a rapid reversible decrease in skin
resistance which takes place under certain electrical stimulatory conditions. Only after it
occurs, the skin resistance measured by means of a positively polarised point electrode is
significantly higher for diseased organs’ projection areas, when compared to the
resistance for the same but negatively polarised measuring electrode (rectification / diode
phenomenon). For healthy organs’ projection areas, this phenomenon is not observed.
The pathology of an internal organ also increases the impedance of the corresponding
OPA. The location of the skin zone, where a high degree of rectification and increased
impedance is observed, indicates which particular organ is diseased. The degree of
rectification or difference in impedance indicates the extent of the pathological process within the organ. These findings created the basis for a new non-invasive diagnostic
method – organ electrodermal diagnostics (OED).
Although the electrical phenomena of the skin described above have been confirmed
clinically, the resistance and impedance values involved have not been characterized
statistically. Therefore, in order to determine the accuracy of OED, optimization of OED
parameters was undertaken. Evaluation of electrical characteristics revealed that for AC
measurements, low frequency and high amplitude were most suitable. Therefore 250Hz
was selected as the measurement frequency, since lower frequencies produced
uncomfortable sensations under the measuring electrode. Measuring current amplitude
was chosen to be 25uA (peak) since it was observed to be below the perception threshold.
For DC measurements, the highest amplitude of the measurement stimulus that does not
cause uncomfortable sensations was the most suitable. Since the skin resistance is very
low after the ‘breakthrough effect’, 25uA was chosen as optimal.
According to these parameters the OED device ‘Diagnotronics’ was built. The device
specifies the actual condition of the organ related to the investigated skin area as
'HEALTHY', 'WITHIN NORMAL LIMITS', ‘SUBACUTE’ and ‘ACUTE’. A
special display graded according to percentage of the disease intensity, makes it possible
to specify accurately the activity of organ pathology. The locations of skin areas
corresponding to the examined organs and final results are displayed on a screen.
A double-blind comparative study of OED results and clinical diagnoses, as a criterion
standard, was performed on a group of 200 inpatients at Helen Joseph Hospital's surgical
department. The study was restricted to the following organs: oesophagus, stomach, gall bladder, pancreas, colon, kidneys, urinary bladder and prostate. These organs are
relatively easy to access clinically, and their pathologies represent a variety of
aetiological and pathogenetic factors e.g. infections, inflammation, neoplasms,
immunological and metabolic disorders.
In total 630 true OED results were obtained from the 714 subjects considered:
detection rate 88.2% (85,6-90,5%). Established OED sensitivity was 89.5% (85,2-92,8%)
and OED specificity equaled 87.5% (84,0-90,4%). The predictive value for positive OED
results was 81.7% (76,9-85,9%) and for negative OED results 93.0% (90,1-95,2%).
There were no significant differences in the results obtained from various internal
organs. Healthy organs usually display the OED result 'HEALTHY' or 'WITHIN
NORMAL LIMITS’, while subacute pathology displays 'SUBACUTE' and acute
pathology as an 'ACUTE'. The OED results were affected neither by the type nor the
aetiology of disease i.e. OED estimates the actual extent of the pathological process
activity within a particular organ but does not explain the direct cause of the pathology.
The OED results were not influenced by a patient's muscle tension, emotional state,
skin humidity, environmental temperature or by procedure duration. The pressure of the
measuring electrode had a limited influence (up to 5%) on the OED results and did not
affect the final diagnoses. No side-effects of the OED examinations were observed.
The study confirmed the existence of OPA on the skin surface and proved that OED is
a reliable bioelectronic method of non-invasive medical diagnostic testing, with high
rates of sensitivity, specificity and predictive values. OED may detect diseased organs
and estimate the activity of the pathological process.
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Návrh a realizace struktur s vnořenými komponenty / Design and Realization of Structures with Embeded ComponentsNěmec, Tomáš January 2011 (has links)
The master thesis deals with multilayer structures and thick film technology. The main goal of this work is measure basic electric features of structures realized with thick film technology. The results will make possible more accurate design of these structures.
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Electrical and Optical Characteristics of InP Nanowires based p-i-n PhotodetectorsAhmed, Rizwan, Abbas, Shahid January 2010 (has links)
Photodetectors are a kind of semiconductor devices that convert incoming light to an electrical signal. Photodetectors are classified based on their different structure, fabrication technology, applications and different sensitivity. Infrared photodetectors are widely used in many applications such as night vision, thermal cameras, remote temperature sensing, and medical diagnosis etc. All detectors have material inside that is sensitive to incoming light. It will absorb the photons and, if the incoming photons have enough energy, electrons will be excited to higher energy levels and if these electrons are free to move, under the effect of an external electric field, a photocurrent is generated. In this project Fourier Transform Infrared (FT-IR) Spectroscopy is used to investigate a new kind of photodiodes that are based on self-assembled semiconductor nanowires (NWs) which are grown directly on the substrate without any epi-layer. The spectrally resolved photocurrent (at different applied biases) and IV curves (in darkness and illumination) for different temperatures have been studied respectively. Polarization effects (at low and high Temperatures) have been investigated. The experiments are conducted for different samples with high concentration of NWs as well as with lower concentration of NWs in the temperature range from 78 K (-195ºC) to 300 (27ºC). These photodiodes are designed to work in near infrared (NIR) spectral range. The results show that the NW photodetectors indeed are promising devices with fairly high break down voltage, change of photocurrent spectra with polarized light, low and constant reverse saturation current (Is). The impact of different polarized light on photocurrent spectra has been investigated and an attempt has been made to clarify the observed double peak of InP photocurrent spectrum. Our investigations also include a comparison to a conventional planar InP p-i-n photodetector.
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Modélisation et simulation des réponses électriques de cellules solaires organiques / Modeling and simulation of electrical responses of organic solar cellsRaba, Adam 17 April 2015 (has links)
Le principal objectif de ce travail est d’étudier les cellules solaires organiques de type hétérojonction en volume à l’aide d’un modèle bidimensionnel spécifique incluant un état intermédiaire pour la dissociation des charges dans les matériaux organiques. Ce modèle est mis en place dans un logiciel de simulation par éléments finis. Après validation, il est comparé à deux approches existant dans la littérature. Le grand nombre de paramètres requis pour décrire le mécanisme complexe de génération de charges nécessite un algorithme robuste, basé sur l’exploitation de chaînes de Markov, pour extraire ces paramètres physiques à partir de données expérimentales. Le modèle ainsi que la procédure d’extraction de paramètres sont utilisés dans un premier temps pour étudier le mécanisme de dissociation associé à une cellule comportant une nouvelle molécule. Ensuite le comportement en température de cellules à base de P3HT : PCBM est simulé et comparé à des mesures expérimentales. / The main objective of this work is to study bulk heterojunction organic solar cells with a specific two dimensional model that takes into account an intermediate state specific to organic materials. The model is solved numerically by a finite element software. After its validation, it is compared to two existing approaches in the literature. The large number of parameters needed to describe the complex charge generation mechanism requires a robust parameter extraction algorithm, based on the operation of Markov chains, in order to extract these physical parameters from experimental characterizations. The model and the parameter extraction method are then used to study the charge dissociation mechanism of a cell with a newly synthesized molecule. Finally, the temperature evolution of P3HT : PCBM solar cells are simulated and compared to experimental measurements.
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Diagnostika plazmatu generovaného ve směsích vody a alkoholů / Diagnostics of plasma generated in mixtures of water and alcoholsAdámková, Barbora January 2020 (has links)
This diploma thesis is aimed to the corona-like discharge in solutions of alcohols, specifically in ethanol, methanol, glycerol, butanol and isopropyl alcohol. The electric discharge was diagnosed by two methods. The first method was the measuring of electrical characteristics. Current-voltage characteristics were constructed from the measured average values of voltage and current. The breakdown voltages were determined from the current-voltage characteristics. The breakdown voltages of the individual alcohol solutions were dependent on the alcohol concentration, polarity of the electrodes in the reactor and solution conductivity. The breakdown voltage was determined for solutions of butanol, glycerol and isopropyl alcohol with a concentration of 20 vol. % and conductivity of 200 µS. The highest value of the breakdown voltage was determined for solution of glycerol at 580 V. The lowest voltage at which the discharge was observed was estimated for butanol (320 V), but due to the limited miscibility with water this value is inaccurate, and therefore in the second part of experiment butanol was not used. Alcohol series was supplemented with methanol. The second diagnostic method was the proton ionization mass spectrometry with the time of flight analyzer. The products formed in the reactor due to the plasma discharge were identified from the mass spectrum. Mostly, aliphatic hydrocarbons and their radicals were detected. The amount of products was observed in the dependence on the changing experimental conditions: alcohol concentration in the solution, the polarity of the electrodes in the reactor and the duration of the discharge. Only a small amount of compounds were detected in methanol. However, more molecules were formed with the increasing carbon chain in the alcohol molecule. More compounds were also detected with the increasing alcohol concentration and in case of the negative polarity of the main electrode. The formation of acetaldehyde as a typical discharge product was studied in details. Its production in time was observed and the reaction pathways of its formation in the ethanol solution were suggested.
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Diafragmový výboj v roztocích organických barviv z hlediska elektrolytického rozkladu / Diaphragm discharge in organic dye solutions with focus on electrolytic decompositionDavidová, Jaroslava January 2010 (has links)
This Diploma thesis is focused on physical and chemical effects which contribute to the decomposition of organic dyes by diaphragm discharge generated in water solutions. Due to the application of DC high voltage source in continuous regime, there is an effect of electrolysis contributing to the dye decomposition by diaphragm discharge. The aim of this work was to find out when the electrolysis is running (or when is the moment of discharge breakdown) and which factors influence the breakdown. The other goal was decomposition of selected textile and food organic dyes by electrolysis itself. In the theoretical part, theory about creation of electrical discharges in aqueous solutions is noted and various types of underwater discharges are described. Background researches about underwater electrical discharges used in the world are mentioned as well as the use of diaphragm discharges and various ways how to remove organic dyes from wastewater. Finally, theories of electrolysis, UV-VIS spectroscopy and basis of other analytical methods useful for detection of organic molecules are described. Experimental part is oriented to experiment procedure which was carried out in a reactor with separated electrode areas. Separation was made by dielectric diaphragm with a pinhole in the centre. Its initial diameter was 0.4 mm. Used chemicals and course of experiments are described in this part, too. First, the breakdown moment in the reactor was investigated (i. e. determination, when only electrolysis was operating) by formation of hydrogen peroxide and measurement of dynamic (time resolved) electrical characteristics. Next, decomposition of selected dyes by electrolysis was carried out. As the decomposition was related to decolorization of the solution, UV-VIS spectroscopy in the range of 350–700 nm was used for determination of dye concentration. Next part focused on results presents various factors which had an effect on breakdown of diaphragm discharge. These factors are kind of used electrolyte, initial conductivity of solution, kind of dye, temperature of solution and type of reactor (or solution volume). From the result, the most important factor is initial solution conductivity. After the determination of the breakdown moment, the electrolysis of organic dyes was performed. The applied current was 10 mA, initial conductivity was 500 µS/cm and used electrolyte was NaCl. Moreover comparison of dye decomposition in dependence on the different applied power was realized. From this comparison one can assume, there is no significant contribution of electrolysis (the efficiency is approximately 15 %) to the diaphragm discharge in aqueous solution.
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Diagnostika plazmatu generovaného ve vybraných konfiguracích elektrického výboje v kapalném prostředí / Plasma diagnostics of electric discharges generated in selected configurations in liquidsVašíček, Michal January 2014 (has links)
My diploma thesis is focused on a comparison of direct-current and high frequency (15-80 kHz) electric discharge, which generates non-thermal plasma in water solution of sodium chloride. Mainly current-voltage and Lissajous charts are discussed in the first part of this thesis. These charts describe different discharge phases: electrolysis, bubble formation, discharge breakdown and discharge regular operation in a pin-hole of a dielectric barrier. Influence of frequency, electrolyte conductivity, thickness of the diaphragm (or length of the capillary) and pin-hole diameter on discharge breakdown and bubble generation was studied, too. Measurements were realized in a polycarbonate reactor with total volume of 110 ml, which was divided by a changeable polyacetal insulating wall. This wall divided the reactor into two approximately equal spaces with one stainless steel planar electrode in each part. The Shapal-MTM ceramic discs (thickness of 0.3–1.5 mm and diameter of the central pin-hole of 0.3-0.9 mm) were mounted in the centre of the insulating wall. Initial conductivity of sodium chloride solution was chosen within the interval of 100900 S/cm. The second part of my thesis compares an influence of the direct-current (DC) and high frequency (HF) power sources on physical solution properties (conductivity, pH and temperature) and generation of hydrogen peroxide. A plasma reactor with total volume of 4 l and with mixing set up was divided into two equal spaces with one planar platinum electrode in each part. Diaphragm with thickness of 0.6 mm and pin-hole diameter of 0.6 mm was installed in the middle of the separating wall. Experiment was held at discharge operation of 45 W for 40 minutes with both power sources. Detection of hydrogen peroxide was realised by using a titanium reagent forming a yellow complex, which was analysed by absorption spectroscopy. If HF discharge power is plotted as a function of applied frequency, exponential decrease of frequency with increasing power can be observed. Higher breakdown voltage is necessary for thicker dielectric barriers, on the other hand for bigger diameter of the pin-hole lower breakdown voltage and higher power is needed in DC as well as in HF regime. Breakdown voltage is decreased by the increasing conductivity in both regimes; due to more charge carriers in the higher conductivity lower breakdown voltage is needed. However frequency in HF regime and DC discharge power increases. HF discharge power is decreased by the increasing conductivity. Solution conductivity and temperature are increased by initial conductivity value in both discharge regimes. Solution pH drops to acidic conditions when HF or DC positive regime is applied due to the generation of reactive species and electrolysis (in DC regime). However solution becomes alkaline when DC negative regime is applied. Concentration of hydrogen peroxide is produced linearly when HF or DC negative regime is applied and it depends on initial solution conductivity.
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Alternating-Current Thin-Film Electroluminescent Device Characterization / Charakterizace tenkovrstvých elektroluminiscenčních součástekAhmed, Mustafa M. Abdalla January 2008 (has links)
Jádrem této disertační práce bylo studovat optické a elektrické charakteristiky tenkovrstvých elektroluminiscenčních součástek řízených střídavým proudem (ACTFEL) a zejména vliv procesu stárnutí luminiforů na jejich optické a elektrické vlastnosti. Cílem této studie měl být příspěvek ke zvýšení celkové účinnosti luminoforů, vyjádřené pomocí jasu, účinnosti a stability. Vzhledem k tomu, že současnou dominantní technologií plochých obrazovek je LCD, musí se další alternativní technologie plošných displejů porovnávat s LCD. Výhodou ACTFEL displejů proti LCD je lepší rozlišení, větší teplotní rozsah činnosti, větší čtecí úhel, či možnost čtení při mnohem vyšší intenzitě pozadí. Na druhou stranu je jejich nevýhodou vyšší energetická náročnost, problém s odpovídající barevností tří základních barev a podstatně vyšší napětí nutné pro činnost displeje. K dosažení tohoto cíle jsme provedli optická, elektrická a optoelektrická měření ACTFEL struktur a ZnS:Mn luminoforů. Navíc jsme studovali vliv dotování vrstvy pomocí KCl na chování mikrostruktury a na elektroluminiscenční vlastnosti (zejména na jas a světelnou účinnost) ZnS:Mn luminoforů. Provedli jsme i některá, ne zcela obvyklá, měření ACTFEL součástek. Vypočítali jsme i rozptylový poměr nabitých barevných center a simulovali transportní charakteristiky v ACTFEL součástkách. Studovali jsme vliv stárnutí dvou typů ZnS:Mn luminoforů (s vrstvou napařenou či získanou pomocí epitaxe atomových vrstev) monitorováním závislostí svítivost-napětí (L-V), velikost vnitřního náboje - elektrické pole luminoforu (Q-Fp) a kapacitance-napětí (C-V) ve zvolených časových intervalech v průběhu stárnutí. Provedli jsme krátkodobá i dlouhodobá měření a pokusili jsme se i o vizualizaci struktury luminoforu se subvlnovým rozlišením pomocí optického rastrovacího mikroskopu pracujícího v blízkém poli (SNOM). Na praktickém případu zeleného Zn2GeO4:Mn (2% Mn) ACTFEL displeje, pracujícího při 50 Hz, jsme také studovali stabilitu svítivosti pomocí měření závislosti svítivosti na napětí (L-V) a světelné účinnosti na napětí (eta-V). Přitom byl zhodnocen význam těchto charakteristik. Nezanedbatelnou a neoddělitelnou součástí této práce je i její pedagogický aspekt. Předložený text by mohl být využit i jako učebnice pro studenty na mé univerzitě v Lybii.
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