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Surface Investigations Of The Atomic Layer Growth Mechanism In Aluminum Nitride Thin Film Deposition Using Dimethylethylamine Alane And Ammonia
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Book Synopsis Surface Investigations of the Atomic Layer Growth Mechanism in Aluminum Nitride Thin Film Deposition Using Dimethylethylamine Alane and Ammonia by : Jason Se-Yung Kuo
Download or read book Surface Investigations of the Atomic Layer Growth Mechanism in Aluminum Nitride Thin Film Deposition Using Dimethylethylamine Alane and Ammonia written by Jason Se-Yung Kuo and published by . This book was released on 1999 with total page 230 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Dissertation Abstracts International by :
Download or read book Dissertation Abstracts International written by and published by . This book was released on 2000 with total page 856 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Nitride Semiconductors: Volume 482 by : Materials Research Society. Meeting
Download or read book Nitride Semiconductors: Volume 482 written by Materials Research Society. Meeting and published by . This book was released on 1998-04-20 with total page 1274 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book is on recent experimental and theoretical progress in the rapidly growing field of III-V nitrides. Issues related to crystal growth (bulk and thin films), structure and microstructure, formation of defects, doping, alloying, formation of heterostructures, determination of physical properties and device fabrication and evaluation are addressed. Papers show much progress in the growth and understanding of III-V nitrides and in the production of optoelectronic devices based on these materials. Most exciting is the fact that light-emitting diodes and laser diodes have now reached amazing levels of performance which forecasts a revolution in lighting, optical storage, printing, and display technologies. Topics include: crystal growth- bulk growth, early stages of epitaxy; crystal growth- MOCVD; growth techniques - MBE and HVPE; novel substrates and growth techniques; structural properties; electronic properties; luminescence and recombination; characterization, elemental and stress analysis; physical modelling; device processing, implantation, annealing; device characterization, contacts, degradation; and injection laser diodes and applications.
Book Synopsis Aluminum Nitride Buffer Layer Growth for Group III-nitride Epitaxy on (111) Silicon by : Andrew Philip Lange
Download or read book Aluminum Nitride Buffer Layer Growth for Group III-nitride Epitaxy on (111) Silicon written by Andrew Philip Lange and published by . This book was released on 2016 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: This dissertation examines the growth of aluminum nitride (AlN) on (111) silicon by metalorganic chemical vapor deposition. AlN is commonly used as a buffer layer for the growth of gallium nitride on silicon templates. This makes the development of growth protocols for high quality, smooth AlN films on silicon critical to improving the performance and reliability of III-nitride on silicon devices such as light emitting diodes and high power transistors. The optimal nucleation conditions for AlN on silicon have been heavily disputed. Some crystal growers expose the substrate to aluminum prior to AlN deposition, which has been shown to improve crystal quality and decrease surface roughness of both AlN buffer layers and overgrown gallium nitride. However, others adopt an ammonia-first approach, in which the substrate is nitrided prior to AlN deposition. Both can be effective depending on the growth conditions, which has resulted in considerable controversy regarding how aluminum, nitrogen, and silicon interact during these initial "predoses" and how the resulting morphology influences subsequent AlN and gallium nitride growth. The structure and morphology of aluminum predose layers deposited directly on (111) silicon at ~970 °C both with and without subsequent ammonia exposure were studied using electron microscopy, atomic force microscopy, and X-ray photoelectron spectroscopy. Three morphological features were identified -- trenches, islands, and patches. When the predose layer was not exposed to ammonia, a roughening of the substrate was observed, similar to what occurs when gallium reacts with silicon. This gave rise to aluminum rich surface trenches, which suggests that silicon is dissolved by liquid aluminum and the resulting aluminum-silicon liquid solution evaporates. When the predose layer was exposed to ammonia, faceted patches were observed with small islands near their edges. The islands were composed of both zinc-blende and wurtzite AlN polytypes, while the patches consisted of diamond cubic silicon with dilute concentrations of aluminum. A model was proposed to explain these features in which the liquid aluminum-silicon surface layer is converted into AlN and silicon upon nitridation. Low temperature and high temperature AlN growth was examined after varied aluminum predoses using electron microscopy and atomic force microscopy with the aim of explaining anomalous AlN-silicon interface structures observed by others. AlN formed small, three-dimensional islands when grown directly on the substrate at ~970 °C with no predose. When the substrate was first exposed to a predose at ~970 °C, AlN nucleated on both island and patch features causing them to grow laterally and eventually coalesce. The morphologies of films grown with and without predoses were nearly identical after coalescence. This suggests that growth at this temperature is kinetically limited and does not depend on the nucleation surface. At high temperatures (~1060 °C), enhanced lateral growth on patch features formed during the predose was observed. The AlN-silicon interface was found to be predominantly amorphous when no predose was used, consistent with previous reports. The interface was structurally abrupt when aluminum was deposited prior to growth, but contained an additional phase consistent with the zinc-blende islands observed in predose layers. It was proposed that the amorphous SiN[subscript x] interfacial layer formed between nucleation sites when no predose was used as the substrate was exposed to an ammonia ambient prior to lateral growth of the nuclei. When the substrate was first exposed to a predose, aluminum rich silicon patches covered the surface. The presence of aluminum in the patches may limit the reaction between silicon and nitrogen during the early stages of growth. Dislocations in buffer layers grown both with and without aluminum predoses were studied using weak beam dark field transmission electron microscopy. A mosaic microstructure was observed which consisted of clustered dislocations along subgrain boundaries. Many of these subgrains were not bounded by dislocations on all sides, which suggests they did not form by the coalescence of misaligned islands. It was proposed they formed instead by the clustering of dislocations due to attractive and repulsive interactions. Dislocation densities were lower in films grown with a predose, which resulted in the formation of fewer subgrains. It was also found that buffers grown with a predose had a smoother surface. The surface of buffer layers grown without a predose contained small pits along the edges of surface terraces. The separation and geometry of these terraces was consistent with the subgrain structure, indicating surface step bunching may occur around subgrains where dislocation densities are high. Consistent with III-nitride growth on alternative substrates, a-type threading dislocations with line directions normal to the basal plane were found to terminate within highly defective, low temperature nucleation layers. C-type threading dislocations were found to terminate near the AlN-Si interface. It was suggested that the former originate from the climb of basal plane dislocations which form through the dissociation of Shockley partials or the coalescence of I1 type stacking faults. It was suggested that the latter nucleate from surface steps on the substrate. The observed improvement in crystal quality of buffer layers grown with a predose may be due to dislocation annihilation events, rather than the nucleation of fewer threading dislocations. This is corroborated by the presence of voids in the substrate when the buffer was grown with a predose, which indicates that point defects diffuse across the abrupt interface during growth. The presence of amorphous interfaces in films grown without an aluminum predose may inhibit the diffusion of point defects and thereby deter dislocation climb. If this mechanism is active as evidence in this dissertation suggests, an appropriate objective of any nucleation process for AlN buffer layers on silicon may be to improve the structural coherence of the interface.
Book Synopsis Electrical & Electronics Abstracts by :
Download or read book Electrical & Electronics Abstracts written by and published by . This book was released on 1997 with total page 1860 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Charaterization of the Growth of Aluminum Nitride and Gallium Nitride Thin Films on Hydrogen Etched And/or Cleaned 6H-SiC(0001) Surfaces by :
Download or read book Charaterization of the Growth of Aluminum Nitride and Gallium Nitride Thin Films on Hydrogen Etched And/or Cleaned 6H-SiC(0001) Surfaces written by and published by . This book was released on 2000 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: The surface morphology and atomic structure of nitrogen doped, n-type 6H-SiC(0001)Si wafers before and after various surface preparation techniques were investigated. As-received wafers were exposed to in-situ cleaning with or without excess silicon to obtain either a (rt3 x rt3)R30 & deg; or a (3 x 3) reconstructed surface. The resulting surfaces were characterized using reflection high-energy electron diffraction, photo-electron emission microscopy, and atomic force microscopy. An atomically clean, reconstructed surface was obtained via thermal annealing at 950 & deg;C. Cleaning with excess silicon resulted in the formation of silicon islands on the surface. The surface morphology of hydrogen etched wafers depended upon their doping concentrations. Wafers with doping concentrations of greater than or equal 2.5 x 10E18 and less than 7 x 10E17 (ND-NA)/cm3 were investigated with the former exhibiting more surface features. The microstructure of all the samples showed regions with full and half unit cell high steps. An atomically clean, ordered, stepped surface was achieved via annealing at 1030 degrees Celcius. Chemical vapor cleaning resulted in the formation of silicon islands. The initial growth of AlN and GaN thin films on the cleaned, hydrogen etched 6H-SiC(0001) substrates were investigated using PEEM and AFM. The AlN films nucleated immediately and coalesced, except in the areas of the substrate surface which contained half unit cell height steps where pits were observed. The GaN films grown at 800 & deg;C for 2.5 minutes exhibited nucleation and three-dimensional growth along the steps. The GaN films deposited at 700 & deg; C for 2 minutes grew three-dimensionally with coalescence of the film dependent upon the step structure. Almost complete coalescence occurred in regions with unit cell high steps and incomplete coalesce occurred in regions with half unit cell height steps. Films of AlN grown for 30 minutes via GSMBE on hydrogen etched surfaces exhibited two-dimens.
Book Synopsis Atomic Layer Deposition (ALD) by : Jeannie Valdez
Download or read book Atomic Layer Deposition (ALD) written by Jeannie Valdez and published by . This book was released on 2015 with total page 183 pages. Available in PDF, EPUB and Kindle. Book excerpt: Atomic layer deposition (ALD) is a thin film deposition technique used in the mass production of microelectronics. In this book, novel nonvolatile memory devices are discussed. The chapters examine the low-temperature fabrication process of single-crystal platinum non-thin films using plasma-enhanced atomic layer deposition (PEALD). A comprehensive review of ALD surface coatings for battery systems is provided, as well as a theoretical calculation on the mechanism of thermal and plasma-enhanced atomic layer deposition of SiO2; and fluorine doping behavior in Zn-based conducting oxide film grown by ALD.
Book Synopsis Plasma-Assisted Atomic Layer Deposition of III-Nitride Thin Films by : Çağla Özgit-Akgün
Download or read book Plasma-Assisted Atomic Layer Deposition of III-Nitride Thin Films written by Çağla Özgit-Akgün and published by LAP Lambert Academic Publishing. This book was released on 2014-03 with total page 180 pages. Available in PDF, EPUB and Kindle. Book excerpt: III-nitride compound semiconductors (AlN, GaN, InN) and their alloys have emerged as versatile and high-performance materials for a wide range of electronic and optoelectronic device applications. Although high quality III-nitride thin films can be grown at high temperatures (>1000 C) with significant rates, deposition of these films on temperature-sensitive device layers and substrates necessitates the adaptation of low-temperature methods such as atomic layer deposition (ALD). When compared to other low-temperature thin film deposition techniques, ALD stands out with its self-limiting growth mechanism, which enables the deposition of highly uniform and conformal thin films with sub-angstrom thickness control. These unique characteristics make ALD a powerful method especially for depositing films on nanostructured templates, as well as preparing alloy thin films with well-defined compositions. This monograph reports on the development of low-temperature ( 200 C) plasma-assisted ALD processes for III-nitrides, and presents detailed characterization results for the deposited thin films and fabricated nanostructures."
Book Synopsis THE LOW-TEMPERATURE THERMAL CHEMICAL VAPOR DEPOSITION AND CATALYZED CHEMICAL VAPOR DEPOSITION OF ALUMINUM NITRIDE AND SILICON NITRIDE (CHEMICAL VAPOR DEPOSITION). by : JEFFREY L. DUPUIE
Download or read book THE LOW-TEMPERATURE THERMAL CHEMICAL VAPOR DEPOSITION AND CATALYZED CHEMICAL VAPOR DEPOSITION OF ALUMINUM NITRIDE AND SILICON NITRIDE (CHEMICAL VAPOR DEPOSITION). written by JEFFREY L. DUPUIE and published by . This book was released on 1991 with total page 396 pages. Available in PDF, EPUB and Kindle. Book excerpt: deposition scheme holds much promise for low temperature film growth.
Book Synopsis Atomic Layer Deposition Applications 3 by : Ana Londergan
Download or read book Atomic Layer Deposition Applications 3 written by Ana Londergan and published by The Electrochemical Society. This book was released on 2007 with total page 300 pages. Available in PDF, EPUB and Kindle. Book excerpt: The continuously expanding realm of Atomic Layer Deposition (ALD) Applications is the symposium focus. ALD can enable the precise deposition of ultra-thin, highly conformal coatings over complex 3D topography, with controlled composition and properties. Following two successful years, this symposium is well on its way to becoming a forum for the sharing of cutting edge research in the various areas where ALD is used.
Book Synopsis Studies of Gas Phase Reactions, Nucleation and Growth Mechanisms of Plasma Promoted Chemical Vapor Deposition of Aluminum Using Dimethylethylamine Alane as Source Precursor by : Andreas H. Knorr
Download or read book Studies of Gas Phase Reactions, Nucleation and Growth Mechanisms of Plasma Promoted Chemical Vapor Deposition of Aluminum Using Dimethylethylamine Alane as Source Precursor written by Andreas H. Knorr and published by . This book was released on 1998 with total page 272 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Atomic Layer Deposition Applications 14 by : F. Roozeboom
Download or read book Atomic Layer Deposition Applications 14 written by F. Roozeboom and published by The Electrochemical Society. This book was released on 2018-09-21 with total page 83 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Mechanistic, Surface Chemistry, and Growth Studies of Novel Precursors for Aluminum Nitride Thin Films by : David Walter Robinson
Download or read book Mechanistic, Surface Chemistry, and Growth Studies of Novel Precursors for Aluminum Nitride Thin Films written by David Walter Robinson and published by . This book was released on 1999 with total page 380 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Development and Applications of Aluminum Nitride Thin Film Technology by : Cícero Cunha
Download or read book Development and Applications of Aluminum Nitride Thin Film Technology written by Cícero Cunha and published by . This book was released on 2019 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Aluminum nitride (AlN) thin films have aroused the interest of researchers due to their unique physicochemical properties. However, further studies on these semiconductor materials are still necessary to establish the manufacturing of high-performance devices for applications in various areas, such as telecommunications, microelectronics, and biomedicine. This chapter introduces AlN thin film technology that has made a wide range of applications possible. First, the main physicochemical properties of AlN, its wurtzite crystalline structure, and the incorporation of oxygen during the thin film deposition process are presented. Furthermore, the growth of AlN films by different techniques and their applications as a buffer layer and sensing layer are summarized. Special attention was given to the sputtering deposition process and the use of sputtered AlN films in SAW sensors.
Book Synopsis The Single Crystal Synthesis and Some Properties of Aluminum Nitride by : Cortland O. Dugger
Download or read book The Single Crystal Synthesis and Some Properties of Aluminum Nitride written by Cortland O. Dugger and published by . This book was released on 1975 with total page 76 pages. Available in PDF, EPUB and Kindle. Book excerpt: This final report, which covers the period from March 1972 to 30 June 1975, discusses some conditions for the synthesis of aluminum nitride (AIN) single crystals from solution. The solvent systems used are unique and novel. The average sized, water-white, bipyramidal AIN single crystals reproducibly grown from solution only were 1.1 mm long X 0.3 mm wide. The average sized, AIN single crystals grown from a combined solution-vapor reaction technique were 4mm long X 3 mm wide X 2mm thick. The in-house quantitative evaluation of the crystals was restricted to Laue patterns and emission spectrometry only. In Appendices A, B, C, and D, general discussions of solution growth, other AIN growth methods, some properties of AIN, and a very brief discussion of the newly emerging surface acoustic wave (SAW) device technology and why the use of AIN is considered a good electro-acoutic material in SAW devices are presented. (Author).
Book Synopsis Mechasnistic Studies of Nucleation and Growth During the Atomic Layer Deposition of Metals by : Camila de Paula Teixeira
Download or read book Mechasnistic Studies of Nucleation and Growth During the Atomic Layer Deposition of Metals written by Camila de Paula Teixeira and published by . This book was released on 2021 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Nanotechnology has enabled major advancements in numerous fields such as renewable energy, semiconductor device fabrication, biomedicine, and waste treatment, among others. Precise patterning of features on the nanometer scale is imperative for further development of these technologies. Namely, the development of deposition techniques that are capable of depositing uniform thin films with precise stoichiometry and high uniformity over complex structures is essential. Atomic layer deposition (ALD), a deposition technique that relies on self-limiting surface reactions, has the potential to meet all these requirements. Although many ALD processes have been reported in the literature, many of the chemical and physical phenomena that govern film nucleation during ALD are still unknown. As the properties of ALD films are highly affected by the nucleation stage of film growth, this work aims to better understand how precursor chemistry and surface functionality relate to nucleation and growth for a subset of ALD processes. In the first part of this thesis, we present a study of surface modification techniques to tailor the nucleation properties of Pt ALD. Firstly, we investigate Pt nucleation enhancement through a small molecule surface pretreatment. We find that dosing small organometallic molecules at submonolayer coverage on a SiO2 surface significantly enhances Pt ALD nucleation. We find that the origin of this enhancement is a combination of enhanced chemisorption of the Pt precursor to the SiO2 surface and an increase in the adhesion energy between the Pt and the surface. Secondly, we combine this nucleation enhancement strategy on SiO2 with a well-known self-assembled monolayer growth inhibitor on Co to provide proof of concept for the case of area-selective ALD (AS-ALD) of Pt on Co vs. SiO2. We demonstrate that this combination of enhancement and inhibition in the AS-ALD process yields higher Pt coverages on the growth surface (SiO2) while maintaining high selectivity on the non-growth surface (Co). The combination of activation with inhibition could be expanded to other AS-ALD systems and help tackle current limitations in device patterning. In the second part of this thesis, we investigate the chemisorption mechanism of Ru(DMBD)(CO)3, a precursor that has been shown to be an exceptional candidate for Ru ALD. However, other studies have shown that ruthenium carbonyl derivatives spontaneously decarbonylate post chemisorption, and therefore have been widely implemented in continuous deposition schemes. We therefore aimed to gain deeper insight on the chemisorption mechanism of this precursor and understand the surface functionality that renders it suitable for ALD. Using in situ and ex situ characterization techniques to probe surface chemistry, we find that the deposition mechanism follows a thermally driven spontaneous decarbonylation scheme. Although at high temperatures the decarbonylation is efficient, at low temperatures carbonyl impurities are incorporated into the film. Together with findings from literature reports, we conclude that self-limiting decarbonylation mechanisms are often unsuitable for ALD, due to their continuous, kinetically driven nature. Overall, this work demonstrates the importance of understanding both the chemical and physical mechanisms that govern ALD nucleation and growth, and how these mechanisms affect the resultant film properties.
Book Synopsis Nucleation and Growth of Atomic Layer Deposition by : Zhengning Gao
Download or read book Nucleation and Growth of Atomic Layer Deposition written by Zhengning Gao and published by . This book was released on 2018 with total page 127 pages. Available in PDF, EPUB and Kindle. Book excerpt: Atomic layer deposition (ALD) is a sequential, layer-by-layer, pin-hole free vapor-phase thin film deposition technique. ALD shows advantages over other thin film deposition techniques by enabling deposition of conformal and films with atomic scale controllability over thickness and composition. For ALD process, controlling the nucleation and growth is important since it will affect whether a continuous, conformal, and pin-hole free film can be deposited or not. The type of substrate and its surface functionalization determines the initial nucleation of ALD films, its evolving structure and hence the film properties. This thesis address these specific challenges in the ALD nucleation and growth (N&G) by, 1) understanding the substrate effect on N&G of ALD, 2) understanding the precursor ligands effect on N&G of ALD, 3) understanding effect of ALD N&G films coupled to optically active metal surfaces and nanostructures. In the first part of this thesis, the substrate effect on N&G of ALD is studied by ALD ZnO and Al2O3 on hydroxylated Si substrate and Au substrate. These two ALD processes have similar surface reaction. On Si substrate, 71.6% OH groups are associated with sitting molecule. No observation of nucleation delay. In Au substrate, an initial hydrophobic surface, takes 37 cycle for ALD Al2O3 to finish nucleation and grows as a film. After UV Ozone treatment to tune the Au surface into "clean"-hydrophilic state, the ALD ZnO only takes 5 cycle to finish nucleation. The second part of the thesis, the precursor ligands effect on N&G of ALD is investigated by an ALD Ru process with a zero valent Ru precursor - RuDMBD(CO)3, and H2O. It shows that the complementary effect between precursor ligands dominate the nucleation and growth of Ru film on hydroxylated surface. The third part of the thesis, ALD N&G films coupled to optically active metal and nanostructures is studied by applying ALD Al-doped-ZnO on AuNRs in anodic aluminum oxide (AAO) template to fabricate a 3D nanostructure plasmonic hot carrier device. The uniform coating of ALD film enhance the possibility to make complex plasmonic hot carrier device with moderate quantum efficiency. The study presented in this thesis opens up new direction of studying ALD N&G that focus on the substrate and precursor chemistry. While studying ALD N&G can enhance the understanding about the basic of ALD, the final goal for using ALD is for application. Conformal and pin-hole free coating is critical film deposition.
