Synthesis And Characterization Of Embedded Ge Nanocrystals
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Synthesis and Characterization of Ge Nanocrystals for Thin-Film Applications
| Author | : |
| Publisher | : |
| Total Pages | : 0 |
| Release | : 2004 |
| Genre | : |
| ISBN | : |
The authors have developed a new route for the synthesis of alkyl terminated Germanium (Ge) nanoparticles. These nanoparticles are stable and uniform in size. This is an important first step for determining how to prepare a Ge film from Ge nanoparticles. Preliminary TEM indicates that the melting point of the Ge nanoparticles will be significantly lower than that of the bulk (937 degrees C). Once the melting point is known, the authors can experiment with polymeric substrates for the preparation of Ge films with the ultimate goal of producing flexible GaAs-based solar panels. These are expected to be lightweight, high power density solar panels that would be useful for space applications. (3 figures, 12 refs.).
Synthesis and Characterization of Germanium Nanocrystals and Insights Into Their Formation
| Author | : Alexandra Lauren Holmes |
| Publisher | : |
| Total Pages | : |
| Release | : 2015 |
| Genre | : |
| ISBN | : 9781339543307 |
Group IV nanomaterials are of interest for a variety of applications that rely on their size dependent characteristics. A fundamental understanding of the optical and electronic properties of these nanomaterials is crucial for application. Recent interest in germanium (Ge) and Ge-based nanomaterials has grown due to advances of size, shape, and compositional control obtained from the reduction of Ge iodides in amine solvents. In Chapter 1 a brief overview of solution-based Ge nanocrystal (NC) synthesis and ligand exchange is provided. The use of microwave irradiation for NC synthesis is discussed. Cyclic voltammetry is introduced as a method to characterize the electronic bandgap of NCs. Chapter 2 discusses the microwave-assisted, solution-based synthesis of Ge NCs. Cyclic voltammetry and optical absorption were used to investigate the absolute band energies of Ge NCs of different sizes and capping ligands. As shown for other NC compositions, the ligand identity plays a role in the electronic properties of the quantum confined Ge NCs. Notably, redox active ligands were utilized to understand how the NC affects the properties of the ligand and vice versa. Chapter 3 investigates the mechanistic role of iodine in the synthesis of Ge NCs and the effect of iodine on the production of Ge NC from either Ge(II) or Ge(IV) iodides is amine solvents. It was demonstrated that iodine mediates size control though the in situ oxidation of Ge(II) iodide. Iodine was also shown to react with Ge(IV) iodide to form Ge NC aggregates. In Chapter 4, disulfides are considered as molecular precursors and as surface ligands. It was shown that there is a change in Ge NC size upon the addition of different disulfides to the reaction of Ge(II) iodide in oleylamine. Additionally, several methods of ligand exchange were tested for passivation of the Ge NC surface with disulfide reagents.
Nano-scale Materials
| Author | : S. N. Sahu |
| Publisher | : Nova Publishers |
| Total Pages | : 496 |
| Release | : 2006 |
| Genre | : Science |
| ISBN | : 9781594549106 |
Nano-Scale Materials - From Science to Technology
Germanium Nanocrystals
| Author | : Henry Gerung |
| Publisher | : |
| Total Pages | : 470 |
| Release | : 2006 |
| Genre | : Germanium crystals |
| ISBN | : |
Synthesis and Characterization of Nc-Ge Using Ion Beam Techniques
| Author | : Srinivasa Rao Nelamarri |
| Publisher | : LAP Lambert Academic Publishing |
| Total Pages | : 132 |
| Release | : 2011-09 |
| Genre | : |
| ISBN | : 9783845471440 |
The present book deals with the synthesis and characterization of Germanium (Ge) nanocrystals prepared by using various deposition methods, annealing processes and swift heavy ion irradiation. Even though different methods have been used to prepare Ge nanocrystals, researchers are looking for more compact and versatile synthesis methods for various industrial applications. Here, we have used Atom Beam Sputtering (ABS), RF sputtering and ion implantation for initial depositions. Subsequently these as-deposited samples were annealed at various temperatures using normal furnace annealing, rapid thermal annealing (RTA), microwave annealing and irradiated with swift heavy ions of various energies and fluences for crystallization. Advantages and limitations of these techniques have been discussed in detail.
Synthesis and Characterization of Germanium-based Nanocrystals
| Author | : Hyun Gyung Kim |
| Publisher | : |
| Total Pages | : 0 |
| Release | : 2020 |
| Genre | : |
| ISBN | : |
Approaches to colloidal synthesis have rapidly developed to control the size, shape, and composition of various semiconductors, offering cost reductions, controllability, and scalability. Of semiconductor materials, germanium nanomaterials are known to be the most difficult to synthesize in solution-based methods because of their high crystallization temperature. Zero-dimensional germanium nanocrystals were synthesized by the heat-up method, without any strong reducing agent. Subsequently, finely controlled size-selective precipitation narrowed size distributions, and size-selected nanocrystals successfully created a monolayer germanium nanocrystals superlattice. One-dimensional germanium nanorods were synthesized by the solution–liquid–solid method using tin nanoparticles as seeds. By forming a liquid alloy with the tin seed at the eutectic temperature, which is much lower than the crystallization temperature, germanium nanorods were grown from the tin seed. A monophenylsilane enhanced the yield of germanium nanorods by promoting the phenyl redistribution of diphenylgermane, a germanium precursor. Using a mixture of HCl and HF, tin seeds were completely removed from the tips of the germanium nanorods, leaving germanium crystalline nanorods. Nonvolatile memories, a key component in various electronics and portable systems, include phase-change memory, a leading technology that has seen exponential growth in demand over the last decade. One important class of phase change materials are compounds on the GeTe–Sb2Te3 tie line. Despite interesting properties of the nanomaterials, colloidal synthesis of phase change material nanocrystals has only been rarely reported. In the present study, three representative phase change material nanocrystals, GeTe, Sb2Te3, and Ge2Sb2Te5, were successfully synthesized using the hot-injection method. A poly(vinylpyrrolidinone)–hexadecane (PVP–HDE) polymer was essential for the nanocrystal dispersion and making ternary Ge2Sb2Te5 nanocrystals. Two solvents, oleylamine and trioctylphosphine, were studied for synthesizing all three nanocrystals and reveal the conversion chemistry of phase change material precursors
