Essays about: "InSb nanowires"
Found 4 essays containing the words InSb nanowires.
-
1. Characterization of Bi-incorporated InSb(111)A/B Surfaces : An STM and XPS Study
University essay from Lunds universitet/Synkrotronljusfysik; Lunds universitet/Fysiska institutionenAbstract : In recent years, III-V semiconductor materials have received increasing attention due to their admirable electronic properties like direct tunable bandgaps and high charge carrier mobility. Indium Antimonide (InSb) possesses the largest electron mobility among III-V materials and is promising for infrared detectors, high-speed field effect transistors, and spintronics. READ MORE
-
2. Understanding Sn-seeded InSb nanowire growth
University essay from Lunds universitet/Fysiska institutionen; Lunds universitet/Fasta tillståndets fysikAbstract : III-Sb semiconductor nanowires have drawn a lot of attention because of their many promising applications, such as thermoelectric generation, low power high efficient electronics and quantum transport. Gold as a catalyst seed particle has been dominating for many years assisting nanowires growth. READ MORE
-
3. Epitaxial growth of Sn seeds and Sn-seeded InSb nanowires on InSb substrates
University essay from Lunds universitet/Fasta tillståndets fysik; Lunds universitet/Fysiska institutionenAbstract : During the last decades, researchers have done extensive research on one-dimensional structures because of their promising properties for a broad range of applications. However, there are a few factors slowing down the process of integrating these nanowires in commercial products. To overcome this, new material combinations are being explored. READ MORE
-
4. Effects of electron beam irradiation on the electrical properties of III-V semiconductor nanowires
University essay from Lunds universitet/Fysiska institutionenAbstract : Scanning electron microscopy is widely used in nanowire device fabrication. In spite of the attractive high resolution that scanning electron microscopy provides, it influences the electrical properties of III-V nanowires. READ MORE