Understanding of correlation between size and coloration of Copper Gallium Oxide and its application in perovskite solar cell

Yu, Yongze, Yu

January 2016

No description available.

Chemistry

Investigating β-Ga2O3 Based MOSFETs and Their Electrical Breakdown

Sayeh, Maziar

01 December 2023

TCAD numerical simulations have been carried out to study the current-voltage, electrical breakdown, and self-heating characteristics of β-Ga2O3 based metal-oxide field effect transistors (MOSFETs). β-Ga2O3 semiconductor has an ultra-wide bandgap of ~ 4.8 eV, a theoretical critical breakdown field strength, Ec ~ 8 MV/cm, making it an excellent candidate for high-voltage or power electronics applications. The numerical simulations have been benchmarked against experimentally reported data. For modeling impact ionization, which is expected to induce intrinsic avalanche breakdown, the Selberherr’s model has been used with appropriate parameterization. For a device with a gate length of 2 μm, 0.6 μm gate-drain spacing, 3.4 μm source-drain spacing, and 20 nm thick Al2O3 gate insulator, the intrinsic breakdown voltage was found to be ~460 V. While self-heating dramatically affects the output current and conductance, it has an insignificant effect on the breakdown voltage. The use of a thinner epitaxial channel was found to increase the breakdown voltage slightly (by ~30 V).

beta gallium oxide

breakdown

MOSFET

power electronics

semiconductor

TCAD

Investigation of wide-bandgap semiconductors by UV Raman spectroscopy: resonance effects and material characterization

Kranert, Christian

02 February 2015

Die vorliegende Arbeit befasst sich mit der Untersuchung von weitbandlückigen Halbleitern mittels Raman-Spektroskopie. Diese wurde vorwiegend unter Verwendung von Licht einer Wellenlänge von 325 nm im ultravioletten Spektralbereich angeregt. Damit konnten zum einen aufgrund eines erhöhten Streuquerschnittes Messungen zur Probencharakterisierung durchgeführt werden, die mit Anregung im sichtbaren Spektralbereich nicht möglich gewesen wären. Zum anderen wurden bei dieser Anregungswellenlänge auftretende Resonanzeffekte untersucht. Dabei werden zwei verschiedene Materialsysteme behandelt: zum einen Kristalle mit Wurtzitstruktur und zum anderen binäre und ternäre Sesquioxide mit Metallionen der III. Hauptgruppe. An den Kristallen mit Wurtzitstruktur wurde die Streuung des Anregungslichts mit Energie oberhalb der Bandlücke an longitudinal-optischen (LO) Phononen untersucht. Die Streuung an einzelnen LO-Phononen wird unter diesen Anregungsbedingungen von einem Prozess dominiert, der eine elastische Streuung beinhaltet, durch die die Impulserhaltung verletzt wird. Es wurde ein Modell aufgestellt, dass zwischen einer elastischen Streuung an der Oberfläche und an Punktdefekten unterscheidet, und mit Hilfe von Experimenten verifiziert. Weiterhin wurde der Einfluss von Ladungsträgern auf die Energie der LO-Phononen untersucht und es wird eine Anwendung dieser Erkenntnisse zur Charakterisierung der Oberfläche von Zinkoxid vorgestellt. An den binären Oxiden des Galliums und Indiums wurden die Energien der Phononenmoden ermittelt und die resonante Verstärkung bei der verwendeten Anregungswellenlänge untersucht. Für das Galliumoxid wurde dabei insbesondere die Anisotropie des Materials berücksichtigt. Für das Indiumoxid wird dargestellt, dass durch die resonante Anregung alle Phononenmoden beobachtet werden können, was insbesondere auch die Bestimmung der Phononenmoden von Dünnschichtproben ermöglicht. Weiterhin waren Mischkristalle des Galliumoxids Untersuchungsgegenstand, in denen das Gallium teilweise durch Indium oder Aluminium ersetzt wurde. Die Phononenenergien wurden in Abhängigkeit der Zusammensetzung ermittelt und der Einfluss von strukturellen Eigenschaften darauf sowie das Auftreten von Phasenübergängen untersucht.

Halbleiterphysik

Raman-Streuung

Zinkoxid

Galliumoxid

semiconductor physics

Raman scattering

zinc oxide

gallium oxide

ddc:535

Growth, Characterization and Contacts to Ga2O3 Single Crystal Substrates and Epitaxial Layers

Yao, Yao

01 May 2017

Gallium Oxide (Ga2O3) has emerged over the last decade as a new up-and-coming alternative to traditional wide bandgap semiconductors. It exists as five polymorphs (α-, β-, γ-, δ-, and ε-Ga2O3), of which β-Ga2O3 is the thermodynamically stable form, and the most extensively studied phase. β-Ga2O3 has a wide bandgap of ~4.8 eV and exhibits a superior figure-of-merit for power devices compared to other wide bandgap materials, such as SiC and GaN. These make β-Ga2O3 a promising candidate in a host of electronic and optoelectronic applications. Recent advances in β-Ga2O3 single crystals growth have also made inexpensive β-Ga2O3 single crystal grown from the melt a possibility in the near future. Despite the plethora of literature on β-Ga2O3-based devices, understanding of contacts to this material --- a device component that fundamentally determines device characteristics — remained lacking. For this research, ohmic and Schottky metal contacts to Sn-doped β-Ga2O3 (-201) single crystal substrates, unintentionally doped (UID) homoepitaxial β-Ga2O3 (010) on Sn-doped β-Ga2O3 grown by molecular beam epitaxy (MBE), and UID heteroepitaxial β-Ga2O3 (-201) epitaxial layers on c-plane sapphire by metal-organic chemical vapor deposition (MOCVD) were investigated. Each of the substrates was characterized for their structural, morphological, electrical, and optical properties, the results will be presented in the following document. Nine metals (Ti, In, Ag, Sn, W, Mo, Sc, Zn, and Zr) with low to moderate work functions were studied as possible ohmic contacts to β-Ga2O3. It was found that select metals displayed either ohmic (Ti and In) or pseudo-ohmic (Ag, Sn and Zr) behavior under certain conditions. However, the morphology was often a problem as many thin film metal contacts dewetted the substrate surface. Ti with a Au capping layer with post-metallization annealing treatment was the only consistently reliable ohmic contact to β-Ga2O3. It was concluded that metal work function is not a dominant factor in forming an ohmic contact to β-Ga2O3 and that limited interfacial reactions appear to play an important role. Prior to a systematic study of Schottky contacts to β-Ga2O3, a comparison of the effects of five different wet chemical surface treatments on the β-Ga2O3 Schottky diodes was made. It was established that a treatment with an organic solvent clean followed by HCl, H2O2 and a deionized water rinse following each step yielded the best results. Schottky diodes based on (-201) β-Ga2O3 substrates and (010) β-Ga2O3 homoepitaxial layers were formed using five different Schottky metals with moderate to high work functions: W, Cu, Ni, Ir, and Pt. Schottky barrier heights (SBHs) calculated from current-voltage (I-V) and capacitance-voltage (C-V) measurements of the five selected metals were typically in the range of 1.0 – 1.3 eV and 1.6 – 2.0 eV, respectively, and showed little dependence on the metal work function. Several diodes also displayed inhomogeneous Schottky barrier behavior at room temperature. The results indicate that bulk or near-surface defects and/or unpassivated surface states may have a more dominant effect on the electrical behavior of these diodes compared to the choice of Schottky metal and its work function. Lastly, working with collaborators at Structured Materials Industries (SMI) Inc., heteroepitaxial films of Ga2O3 were grown on c-plane sapphire (001) using a variety of vapor phase epitaxy methods, including MOVPE, and halide vapor phase epitaxy (HVPE). The stable phase β-Ga2O3 was observed when grown using MOVPE technique, regardless of precursor flow rates, at temperatures ranging between 500 – 850 °C. With HVPE growth techniques, instead of the stable β-phase, we observed the growth of the metastable α- and ε-phases, often a combination of the two. Cross-sectional transmission electron microscopy (TEM) shows the better lattice matched α-phase first growing semi-coherently on the c-plane sapphire substrate, followed by domain matched epitaxy of ε-Ga2O3 on top. Secondary ion mass spectrometry (SIMS) revealed that epilayers forming the ε-phase contain higher concentrations of chlorine, which suggests that compressive stress due to Cl- impurities may play a role in the growth of ε-Ga2O3 despite it being less than thermodynamically favorable.

epitaxial growth

gallium oxide

ohmic contact

schottky contact

semiconductor

wide bandgap

Studies on non-oxidative conversion of methane and ethane over metal oxide photocatalysts / 酸化物光触媒上でのメタンおよびエタンの非酸化的転化反応の研究

Singh, Surya Pratap

23 March 2022

京都大学 / 新制・課程博士 / 博士(人間・環境学) / 甲第23976号 / 人博第1028号 / 新制||人||242(附属図書館) / 2022||人博||1028(吉田南総合図書館) / 京都大学大学院人間・環境学研究科相関環境学専攻 / (主査)教授 吉田 寿雄, 教授 田部 勢津久, 教授 中村 敏浩 / 学位規則第4条第1項該当 / Doctor of Human and Environmental Studies / Kyoto University / DFAM

Methane conversion

Ethane

NOCM

Gallium oxide photocatalyst

Pd-Bi dual cocatalyst

Interparticle transfer

Photocatalysis

361

Desenvolvimento e aplicação de nanosuportes e óxidos pouco explorados para fotocatálise heterogênea / Development and application of nanosupports and least explored oxides for heterogeneous photocatalysis

Paschoalino, Matheus Paes

08 September 2010

Orientador: Wilson de Figueiredo Jardim / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Química / Made available in DSpace on 2018-08-16T20:28:08Z (GMT). No. of bitstreams: 1 Paschoalino_MatheusPaes_D.pdf: 18936349 bytes, checksum: 14276ac91e3b802b1f9fb8852267885f (MD5) Previous issue date: 2010 / Resumo: A fotocatálise heterogênea é uma técnica com grande aplicabilidade comercial quando o fotocatalisador encontra-se na forma suportada. O semicondutor mais estudado como fotocatalisador é o TiO2, principalmente o P25 (Degussa) devido suas excelentes propriedades físicoquímicas e fotocatalíticas. Além do TiO2, óxidos como ZnO e SiO2 também foram amplamente avaliados, enquanto que outros como CuO e Ga2O3 foram muito pouco estudados. Trabalhos recentes mostraram que a eficiência dos fotocatalisadores pode ser prejudicada em função do tipo de suporte ou substrato a que estes são fixados, devido a fatores como ligação catalisadorsuporte ineficiente, além de possíveis alterações morfológicas durante a deposição. Dentro deste contexto os objetivos deste trabalho foram: (a) desenvolver um suporte nanoestruturado ideal para o P25, composto por TiO2/SiO2, que possibilite sua fixação simples e rápida sobre superfícies de vidro e (b) avaliar a eficiência de CuO com alta área superficial na inativação fotocatalítica de E. coli e analisar a atividade fotocatalítica de b-Ga2O3 na degradação de compostos orgânicos. Como resultados obtiveram-se suportes nanoestruturados (100 a 315 m g) com alta adesão em vidro, suportando o P25 eficientemente para degradação de compostos emergentes (hormônios e antibióticos) em diferentes tipos de reatores sob iluminação natural e artificial. Óxidos de cobre com altas áreas superficiais (> 40 m g) mostraram-se eficientes na inativação de E. coli (10 UFC mL) após 1 ou 4 h de irradiação (l > 360 nm). O b-Ga2O3 (1 g L) apresentou-se seletivo para degradação de BTEX (4 mg L) utilizando-se uma lâmpada germicida como fonte de fótons. / Abstract: Heterogeneous photocatalysis is a technique with high commercial applicability when the photocatalyst is supported onto a substrate. The most studied semiconductor used as photocatalyst is the P25 TiO2 (Degussa) due to its excellent physiochemical and photocatalytic properties. Besides TiO2, other oxides such as ZnO and SiO2 were also studied, while CuO and Ga2O3 did not receive similar interest. Recent publications showed that photocatalyst efficiency could be impaired depending of the nature of the support or the substrate used, due to factors like inefficient catalyst-support bond and morphological alterations that can occur during deposition process. In this context, the purposes of this work were: (a) to develop a nanosupport for the P25, synthetizing a TiO2/SiO2 composite capable of fixing it over glass surfaces; (b) to evaluate the high surface area CuO efficiency on the photocatalytical inactivation of E. coli, and (c) to evaluate the photocatalatyc activity of b-Ga2O3 on the degradation of organic compounds. Nanostructured supports were obtained (100 to 315 m g) with high adhesion over glass, supporting P25 efficiently and allowing the degradation of emerging compounds (hormones and antibiotics) using different reactors under natural and artificial ilumination. Copper oxides with high surface area (> 40 m g) showed to be efficient on the E. coli inactivation (10 CFU mL) after 1 or 4 h irradiation (l > 360 nm). b-Ga2O3 (1 g L) was selective for BTEX degradation (4 mg L) using a germicidal lamp as photons source. / Doutorado / Quimica Analitica / Doutor em Ciências

Fotocatálise heterogênea

Oxido de cobre

Óxido de gálio

Heterogeneous photocatalysis

Copper oxide

Gallium oxide

Simulation Studies of Thermal Characteristics of β-Ga2O3 Metal Oxide Semiconductor Field Effect Transistors

Zhan, Kunxi

January 2021

No description available.

Engineering

Crystalline properties of gallium oxide thin films epitaxially grown by mist chemical vapor deposition / ミスト化学気相法によるエピタキシャル成長酸化ガリウム薄膜の結晶特性に関する研究

Lee, Sam-Dong

23 March 2016

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第19721号 / 工博第4176号 / 新制||工||1644(附属図書館) / 32757 / 京都大学大学院工学研究科電子工学専攻 / (主査)教授 藤田 静雄, 教授 髙岡 義寛, 准教授 須田 淳 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

Gallium oxide

Epitaxial growth

Chemical vapor deposition

Semiconductor

Crystal growth

500

Evaluation of Metal Printing and Cleanroom Fabricated SiC and Ga2O3 Radiation Sensors

Taylor, Neil Rutger

20 October 2021

No description available.

Nuclear Engineering

semiconductors

radiation detection

alpha spectroscopy

aerosol inkjet printing

silicon carbide

gallium oxide

Demonstration of High-Temperature Operation of Beta-Gallium Oxide (β-Ga2O3) Metal-Oxide-Semiconductor Field Effect Transistors (MOSFET) with Electrostatic Model in COMSOL

Sepelak, Nicholas Paul

22 December 2022

No description available.

Nanotechnology

Mechanical Engineering

Electrical Engineering

High-Temperature

Beta-Gallium Oxide

MOSFET

COMSOL