Tenké transparentní vrstvy pro elektrochromní součástky / Thin layer for electrochromic devices

Pelčák, Vít

January 2008

This diploma thesis deals with creation of transparent conductive layers on glass substrate, which serve as underlay for electrochromic layers. Zinc acetate dissolved in methane and distilled water serves as basis of solution. We are searching for optimal amount of either Fluor or Boron in depositted solutions to achieve best transparency and layer conductivity.

Transparentní polykrystalické keramiky pro balistické a vysokoteplotní aplikace / Transparent polycrystalline ceramics for ballistic and high-temperature applications

Malík, Petr

January 2015

Alumina based transparent ceramic bodies were prepared within this diploma thesis by the gel casting process followed by presintering to closed porosity stage with subsequent hot isostatic pressing. The problematic drying of large bodies was solved by means of careful temperature and relative humidity control and by osmotic drying. Almost perfectly dense ceramics were achieved thanks to colloidal processing of TM-DAR and TM-UF ceramic powders providing a final structure with grain size of 381 nm, resp. 302 nm. High real in-line transmission of 72,3 % was achieved at wavelength of 632,8 nm and thickness of 0,8 mm. Among mechanical properties high values of hardness HV10 = 22,5 GPa, fracture toughness KIC = 3,99 MPam0,5, Young’s modulus E = 400 GPa a bending strength o = 494 MPa were achieved.

Design and Implementation of an Integrated Solar Panel Antenna for Small Satellites

Davids, Vernon Pete

January 2019

Thesis (PhD (Electrical Engineering))--Cape Peninsula University of Technology, 2019 / This dissertation presents a concept for a compact, low-profile, integrated solar panel antenna for use on small satellites in low Earth orbit. To date, the integrated solar panel antenna design approach has primarily been, patch (transparent or non-transparent) and slot radiators. The design approach presented here is proposed as an alternative to existing designs. A prototype, comprising of an optically transparent rectangular dielectric resonator was constructed and can be mounted on top of a solar panel of a Cube Satellite. The ceramic glass, LASF35 is characterised by its excellent transmittance and was used to realise an antenna which does not compete with solar panels for surface area. Currently, no closed-form solution for the resonant frequency and Q-factor of a rectangular dielectric resonator antenna exists and as a first-order solution the dielectric waveguide model was used to derive the geometrical dimensions of the dielectric resonator antenna. The result obtained with the dielectric waveguide model is compared with several numerical methods such as the method of moments, finite integration technique, radar cross-section technique, characteristic mode analysis and finally with measurements. This verification approach was taken to give insight into the resonant modes and modal behaviour of the antenna. The interaction between antenna and a triple-junction gallium arsenide solar cell is presented demonstrating a loss in solar efficiency of 15.3%. A single rectangular dielectric resonator antenna mounted on a ground plane demonstrated a gain of 4.2 dBi and 5.7 dBi with and without the solar cell respectively. A dielectric resonator antenna array with a back-to-back Yagi-Uda topology is proposed, designed and evaluated. The main beam of this array can be steered can steer its beam ensuring a constant flux density at a satellite ground station. This isoflux gain profile is formed by the envelope of the steered beams which are controlled using a single digital phase shifter. The array achieved a beam-steering limit of ±66° with a measured maximum gain of 11.4 dBi. The outcome of this research is to realise a single component with dual functionality satisfying the cost, size and weight requirements of small satellites by optimally utilising the surface area of the solar panels.

Integrated solar panel antenna

dielectric resonator antenna

transparent antenna

small satellites

beam-steering

Yagi-Uda array

Transparent Conductive Tantalum Doped Tin Oxide as Selectively Solar-Transmitting Coating for High Temperature Solar Thermal Applications

Lungwitz, F., Escobar-Galindo, R., Janke, D., Schumann, E., Wenisch, R., Gemming, S., Krause, M.

07 May 2019

The transparent conductive oxide (TCO) SnO2:Ta is developed as a selectively solar-transmitting coating for concentrated solar power (CSP) absorbers. Upon covering with an antireflective layer, a calculated absorptivity of 95% and an emissivity of 30% are achieved for the model configuration of SnO2:Ta on top of a perfect black body (BB). High-temperature stability of the developed TCO up to 1073 K is shown in situ by spectroscopic ellipsometry and Rutherford backscattering spectrometry. The universality of the concept is demonstrated by transforming silicon and glassy carbon from non-selective into solar-selective absorbers by depositing the TCO on top of them. Finally, the energy conversion efficiencies of SnO2:Ta on top of a BB and an ideal non-selective BB absorber are extensively compared as a function of solar concentration factor C and absorber temperature TH. Equal CSP efficiencies can be achieved by the TCO on BB configuration with approximately 50% lower solar concentration. This improvement could be used to reduce the number of mirrors in a solar plant, and thus, the levelized costs of electricity for CSP technology.

Transparent rectifying contacts on wide-band gap oxide semiconductors

Lajn, Alexander

11 December 2012

Die vorliegenden Arbeit befasst sich mit der Herstellung und Charakterisierung von transparenten Metall-Halbleiter- Feldeffekttransistoren. Dazu werden im ersten Kapitel transparente gleichrichtende Kontakte, basierend auf dem Konzept von Metalloxidkontakten, hergestellt und im Hinblick auf chemische Zusammensetzung des Kontaktmaterials, Barriereninhomogenität und Kompatibilität mit amorphen Halbleitern untersucht. Außerdem wird die Anwendbarkeit der Kontakte als UV-Sensor studiert. Im zweiten Kapitel werden transparente leitfähige Oxide vorgestellt und insbesondere deren optische und elektrische Eigenschaften in Abhängigkeit von den Herstellungsbedingungen studiert. Das dritte Kapitel beinhaltet Untersuchungen zu transparenten Feldeffektransistoren, die auf den im ersten Kapitel untersuchten transparenten gleichrichtenden Kontakten basieren (TMESFETs). Insbesondere die elektrischen Stabilität der Bauelemente hinsichtlich Beleuchtung, erhöhten Temperaturen und Spannungsstress wird untersucht. Auch die Langzeitstabilität, Reproduzierbarkeit und der Effekt gepulster Spannungen wird betrachtet. Weiterhin wird die Verwendung amorpher Halbleiter im Kanal und damit auch die Herstellung flexibler Transistoren auf Folie demonstriert. Zuletzt werden die TMESFETs integriert und als Inverterschaltkreise aufgebaut und untersucht. Außerdem wird die Eignung der Transistoren zur Messung von Aktionspotentialen von Nervenzellen studiert.

info:eu-repo/classification/ddc/530

ddc:530

Fabrication of Doped Yttrium Aluminum Polycrystalline Ceramics for Neutron Detection

Brian Lawrence Bettes (12455193)

25 April 2022

<p>Yttrium aluminum garnet (YAG) is a transparent ceramic with various applications, including solid-state lasers, infrared transparent windows, armors, and scintillation crystals. Recently, uranium (U) doped YAG has gained interest as a scintillation material for neutron detection. The principle of neutron detection using U:YAG is that under neutron bombardment, the U atoms within the YAG will fission, providing excitation energy to surrounding U atoms in order to emit photons. As this material is rarely reported, an investigation into the fabrication procedure of this material is conducted. Powder fabrication methods are investigated using X-ray diffraction (XRD) and scanning electron microscopy (SEM). The sintering of the fabricated powders is then investigated by various experimental techniques. Characterization of the sintered samples included optical microscopy, Archimedes density measurements, and XRD.</p>

Nuclear Engineering

Neutron Detection

Yttrium Aluminium Garnet

Transparent Ceramics

scintillation material

Synthesis of Copper-Based Transparent Conductive Oxides with Delafossite Structure via Sol-Gel Processing / Synthese von Kupfer-basierten transparenten leitfähigen Oxiden mit Delafossit-Struktur über das Sol-Gel-Verfahren

Götzendörfer, Stefan

January 2010

Starting off with solubility experiments of possible precursors, the present study reveals the whole development of a sol gel processing route for transparent p type semiconductive thin films with delafossite structure right to the fabrication of functional p-n junctions. The versatile sol formulation could successfully be modified for several oxide compositions, enabling the synthesis of CuAlO2, CuCrO2, CuMnO2, CuFeO2 and more. Although several differences in the sintering behaviour of powders and thin films could be observed, the powder experiments significantly contributed to the clearification of the intricate phase development during thermal annealing and also to optimization of the annealing sequence for thin film processing. Two different ternary systems turned out to be the most promising candidates for p-TCO application: Copper aluminum oxide for its high optical transmittance and copper chromium oxide for its low synthesis temperature, which allowed thin film deposition on low-cost borosilicate substrates. In order to combine the advantages of these two systems, the quaternary oxide composition CuAl1-xCrxO2 was investigated. With a higher optical transmittance than CuCrO2, a lower synthesis temperature than CuAlO2 and a lower resistivity than both parent systems, the optimum composition of the quaternary oxide is reached for x = 0.50. Compared to physical vapour deposition techniques, the undoped thin films presented here still need to make up some deficites in their optoelectronic performance. Although the best sol-gel samples are able to compete with RF sputtered samples or sampes deposited by PLD in transmittance, their resistivity is almost two orders of magnitude higher. The most probable reasons for this are the characteristic imperfections of sol-gel thin films like porosity and small crystallite size, which create barriers like grain boundaries and bottlenecks like barely connected particles. By additional effort such shortcomings can be repelled to a certain extend, but nevertheless the density of undoped sol-gel material always stays behind its pendants processed by physical vapour deposition.[246] Furthermore, such additional endeavour is likely to annihilate the advantage of sol-gel technique in processing costs. Extrinsic doping is a common method to decrease the resistivity of delafossite materials. Partially replacing the trivalent cations by divalent ones creates additional holes and thus generates additional charge carriers for p-type semiconductivity. This can improve the conductivity of delafossites by up to three orders of magnitude. Due to the compositorial flexibility of sol-gel processing, dopants could be introduced easily in this study by soluble precursors. However, improving the conductivity of CuAlO2 and CuAl0.5Cr0.5O2 via this method failed. Actually, this seems to be due to the fact that instead of being incorporated into the delafossite phase the dopant ions form intransparent phase impurities like spinels, which interfere with optical transmittance of the thin films. On the contrary, doping had a positive effect on the conductivity and the optical transmittance of copper chromium oxide, with magnesium being the most effective dopant. The resistivity could be decreased by more than three orders of magnitude, but in order to achieve this, much higher Mg concentrations than by other thin film deposition methods were necessary. This indicates a low doping efficiency in sol gel processed thin films, but also the ability of sol gel processing to incorporate more magnesium into the oxide than any other processing method. The extensive substitution of the chromium ions also increases the optical transmittance and allows sol gel processed thin films to draw level with thin films deposited by sputtering methods or PLD. Finally, the applicability of the delafossite thin films was proven by the asymmetric current voltage characteristics of heterojunctions between ITO and the delafossites. Shunting problems of the metallic contacts, on the other hand, reveal structural deficites of the delafossites, which should be the subject of further investigations. / Ausgehend von Versuchen zur Löslichkeit möglicher Ausgangsstoffe zeigt die vorliegende Studie die komplette Entwicklung einer Sol-Gel-Route für die Synthese transparenter p-halbleitfähiger Dünnschichten mit Delafossitstruktur bis hin zur Herstellung funktionstüchtiger p-n-Übergänge. Die vielseitige Solrezeptur konnte erfolgreich für mehrere Oxidzusammensetzungen abgewandelt werden, was die Synthese von CuAlO2, CuCrO2, CuMnO2, CuFeO2 und weiteren Mischoxiden ermöglichte. Obwohl einige Unterschiede im Sinterverhalten von Pulvern und Dünnschichten beobachtet werden konnten, trugen die Pulverversuche erheblich zur Aufklärung der komplizierten Phasenentwicklung während der thermischen Behandlung und auch zur Optimierung der Kalzinierungsschritte bei der Dünnschichtherstellung bei. Zwei der ternären Oxide erwiesen sich als die vielversprechendsten Kandidaten für die Anwendung als p-halbleitfähiges transparentes Oxid: Kupfer-Aluminium-Oxid aufgrund seiner hohen optischen Transparenz und Kupfer-Chrom-Oxid aufgrund seiner niedrigen Synthesetemperatur, die die Abscheidung von Dünnschichten auf kostengünstigen Borosilicatglas-Substraten ermöglicht. Um die Vorteile dieser beiden Systeme zu vereinen, wurde die quaternäre Oxidzusammensetzung CuAl1-xCrxO2 untersucht. Mit einer höheren optischen Transmission als CuCrO2, einer niedrigeren Synthesetemperatur als CuAlO2 und einem geringeren spezifischen Widerstand als die beiden Muttersysteme wird die optimale Zusammensetzung dieses quaternären Oxids bei x = 0,50 erreicht. Im Vergleich zu Methoden der physikalischen Gasphasenabscheidung müssen die hier vorgestellten undotierten Dünnschichten noch einige Defizite bei ihren optoelektronischen Eigenschaften aufholen. Obschon die besten Sol-Gel-Proben in puncto Transparenz mit Proben, die über Radiofrequenz-Kathodenzerstäubung oder Laserstrahlverdampfen hergestellt wurden, mithalten können, liegt ihr spezifischer Widerstand um zwei Größenordnungen höher. Die wahrscheinlichste Ursache hierfür sind die charakteristischen Unvollkommenheiten von Sol-Gel-Dünnschichten wie Porosität und geringe Kristallitgröße, die den Stromfluss durch Hindernisse wie Korngrenzen und Engpässe wie schlecht verknüpfte Partikel behindern. Durch zusätzlichen Aufwand können derartige Unzulänglichkeiten in gewissem Maße zurückgedrängt werden, doch nichtsdestotrotz liegt die Dichte von undotiertem Sol-Gel-Material immer unter der von vergleichbaren Proben, die über physikalische Gasphasenabscheidung hergestellt wurden.[246] Zudem ist es wahrscheinlich, dass solche zusätzlichen Anstrengungen die Vorteile des Sol-Gel-Verfahrens bei den Herstellungskosten zunichte machen. Extrinsische Dotierung ist ein gängiger Weg, um den spezifischen Widerstand von Delafossit-Materialien abzusenken. Teilweiser Austausch der dreiwertigen Kationen durch zweiwertige erzeugt zusätzliche Löcher und stellt so zusätzliche Ladungsträger für die p-Halbleitung bereit. Dies kann die Leitfähigkeit von Delafossiten um bis zu drei Größenordnungen erhöhen. Dank der stofflichen Flexibilität des Sol-Gel-Verfahrens konnten in dieser Studie Dotanden sehr leicht in Form von löslichen Vorstufen eingebracht werden. Jedoch scheiterten die Versuche, die Leitfähigkeit von CuAlO2 und CuAl0,5Cr0,5O2 auf diesem Wege zu verbessern. Dies scheint darauf zurückzuführen zu sein, dass die Dotanden nicht in die Delafossitphase eingebaut werden, sondern intransparente Fremdphasen wie Spinelle bilden, die die optische Transmission der Dünnschichten beeinträchtigen. Im Gegensatz dazu wirkte sich die Dotierung positiv auf die Leitfähigkeit und die optische Transmission von Kupfer-Chrom-Oxid aus, wobei Magnesium als Dotant die besten Resultate lieferte. Der spezifische Widerstand konnte so um mehr als drei Größenordnungen verringert werden, doch wurden hierfür deutlich höhere Magnesiumkonzentrationen benötigt als bei anderen Beschichtungsverfahren. Einerseits weist dies auf eine geringe Dotiereffizienz in den über das Sol-Gel-Verfahren hergestellten Proben hin, andererseits zeigt dies aber auch, dass über das Sol-Gel-Verfahren wesentlich mehr Magnesium in die Oxidschichten eingebracht werden kann als über jedes andere Verfahren. Der beträchtliche Ersatz der Chromionen erhöht auch die optische Transmission und ermöglicht es den Sol-Gel-Proben, zu den Dünnschichten aufzuschließen, die durch Kathodenzerstäuben oder Laserstrahlverdampfen hergestellt wurden. Schließlich wurde das Anwendungspotential der Delafossit-Dünnschichten durch die asymmetrischen Strom-Spannungs-Kennlinien von p-n-Übergängen zwischen Delafossit und Indium-Zinn-Oxid belegt. Andererseits machen die Kurzschlussprobleme bei der metallischen Kontaktierung die strukturellen Defizite der Delafossite deutlich. Dies sollte zum Gegenstand weiterführender Untersuchungen werden.

Transparent-leitendes Oxid

p-Halbleiter

Sol-Gel-Verfahren

Beschichtung

pn-Übergang

ddc:540

Manufacturing techniques using femtosecond lasers in transparent materials

Cho, Yonghyun

20 December 2019

Femtosecond laser direct writing in transparent materials such as glass and optical fibers has been used as a versatile tool in order to fabricate various 3-D photonic structures such as active and passive waveguides, couplers, gratings and diffractive optical elements (DOEs). This capability of patterning and refractive index modification in the bulk of transparent materials depends on the nonlinear absorption phenomenon. This practical technique has the potential to be used for cost effective and simplified manufacturing in various applications. This thesis examines three advanced manufacturing techniques that use ultrashort pulse filamentary propagation induced by nonlinear absorption in the transparent materials. First, a new gradient index lens fabrication method using femtosecond laser direct writing is introduced. Light that passes through the lens with refractive index change resulting from localized energy deposition is focused using a beam profiler. Second, wide welding area of glass samples are used to fabricate microfluidic devices with long channels by adopting customized fixture. The fixture making artificial pressure helps the two glass samples have wide optical contact area and the highly intensive pulse filamentation strongly joins glass slides. As an example of a more specific application, microfluidic samples with long grooves sealed by femtosecond laser welding were successfully fabricated as part of this project. Finally, a screw-shaped, long period grating sensor was fabricated by rotating the optical fiber. This technique enables the fiber core to have asymmetric refractive index change, resulting in higher sensitivity compared to conventional long period grating sensors. Also, a new long-period grating sensor with reverse bending effect has been demonstrated by producing complex pitches of refractive index change. / Graduate

Femtosecond laser

Transparent Material

Glass welding

Long period grating

Gradient index lens

Transparent Antennas for Solar Cell Integration

Yasin, Tursunjan

01 August 2013

Transparent patch antennas are microstrip patch antennas that have a certain level of optical transparency. Highly transparent patch antennas are potentially suitable for integration with solar panels of small satellites, which are becoming increasingly important in space exploration. Traditional patch antennas employed on small satellites compete with solar cells for surface area. However, a transparent patch antenna can be placed directly on top of solar cells and resolve the issue of competing for limited surface real estate. For such an integration, a high optical transparency of the patch antenna is required from the solar cells' point of view. On the other hand, the antenna should possess at least acceptable radiation properties at the same time. This dissertation focuses on some of the most important concerns from the perspective of small satellite applications. For example, an optimization method to simultaneously improve both optical transparency and radiation efficiency of the antenna is studied. Active integrated antenna design method is extended to meshed patch applications in an attempt to improve the overall power efficiency of the front end communication subsystem. As is well known, circular polarization is immune from Faraday rotation effect in the ionosphere and thus can avoid a 3-dB loss in geo-satellite communication. Therefore, this research also aims to present design methods for circularly polarized meshed patch antennas. Moreover, a meshed patch antenna capable of supporting a high communication data rate is investigated. Lastly, other types of transparent patch antennas are also analyzed and compared to meshed patches. In summary, many properties of transparent patch antennas are examined in order to meet different design requirements.

ITO antennas

meshed patch antennas

transparent antennas

Electrical and Computer Engineering

Electromagnetics and Photonics

Inkjet-Printed Highly Transparent Solar Cell Antennas

Arellano, Jesus A.

01 December 2011

Small satellites, especially Cube Satellites (CubeSats), have become important vehicles for space exploration. One of the challenges CubeSats face is limited surface area. This limitation poses a question for antenna design–where to mount the antenna? This thesis presents a study where the antennas are directly integrated on top of solar cells. In order to achieve such integration, the antennas have to be highly transparent to light. This thesis aims at the transparency of 95%. Methods to effectively generate transparent antenna by using inkjet printing are discussed in detail and interaction between solar cells and antennas have been assessed and presented. It is found that the presence of solar cells cast a degree of gain reduction of the antenna, but such a loss may be improved with a more precise integration and by increasing the operational frequency. The effect of the antenna on solar cell performance is concluded to be less than 3%, promising a feasibility of implementing highly transparent antennas on CubeSats.

Electrical and Computer Engineering