Add to ORKGABSTRACT: SrTiO3 integration on crystallographic oriented (100), (110), and (111) epitaxial germanium (Ge) exhibits a potential for a new class of nanoscale transistors. Germanium is attractive due to its superior transport properties while SrTiO3 (STO) is promising due to its high relative permittivity, both being critical parameters for next-generation low-voltage and low-leakage metal-oxide semiconductor field-effect transistors. The sharp heterointerface between STO and each crystallographically oriented Ge layer, studied by cross-sectional transmission electron microscopy, as well as band offset parameters at each heterojunction offers a significant advancement for designing a new generation of ferroelectric-germanium based multifuncti...
textInside your microelectronic devices there are up to a billion transistors working in flawless op...
The success of silicon industry lies on three major properties of silicon, an easily formed oxide la...
To overcome the physical limits of todays memory technologies new concepts are needed. The resistive...
SrTiO<sub>3</sub> integration on crystallographic oriented (100), (110), and (111) epitaxial germani...
ABSTRACT: Ferroelectric−germanium heterostructures have a strong potential for multifunctional devic...
We explored the feasibility of employing strontium titanate SrTiO3 as semiconducting material in fie...
The first section of this thesis discusses integration of SrTiO3 grown by molecular beam epitaxy (MB...
We explored the feasibility of employing strontium titanate SrTiO3 as semiconducting material in fie...
With the recent developments of the microelectronic industry, the intrinsic limits of the classical ...
Germanium, with its higher hole and electron mobility is a potential candidate to replace silicon as...
The next generation of electronic devices faces the challenge of adequately containing and controlli...
textCrystalline oxide materials and heterostructures have been under extensive investigation owing t...
Electron doped SrTiO3, a complex-oxide semiconductor, possesses novel electronic properties due to i...
The study of quantum phenomena in semiconductors requires epitaxial structures with exceptionally hi...
Electron doped SrTiO3, a complex-oxide semiconductor, possesses novel electronic properties due to i...
textInside your microelectronic devices there are up to a billion transistors working in flawless op...
The success of silicon industry lies on three major properties of silicon, an easily formed oxide la...
To overcome the physical limits of todays memory technologies new concepts are needed. The resistive...
SrTiO<sub>3</sub> integration on crystallographic oriented (100), (110), and (111) epitaxial germani...
ABSTRACT: Ferroelectric−germanium heterostructures have a strong potential for multifunctional devic...
We explored the feasibility of employing strontium titanate SrTiO3 as semiconducting material in fie...
The first section of this thesis discusses integration of SrTiO3 grown by molecular beam epitaxy (MB...
We explored the feasibility of employing strontium titanate SrTiO3 as semiconducting material in fie...
With the recent developments of the microelectronic industry, the intrinsic limits of the classical ...
Germanium, with its higher hole and electron mobility is a potential candidate to replace silicon as...
The next generation of electronic devices faces the challenge of adequately containing and controlli...
textCrystalline oxide materials and heterostructures have been under extensive investigation owing t...
Electron doped SrTiO3, a complex-oxide semiconductor, possesses novel electronic properties due to i...
The study of quantum phenomena in semiconductors requires epitaxial structures with exceptionally hi...
Electron doped SrTiO3, a complex-oxide semiconductor, possesses novel electronic properties due to i...
textInside your microelectronic devices there are up to a billion transistors working in flawless op...
The success of silicon industry lies on three major properties of silicon, an easily formed oxide la...
To overcome the physical limits of todays memory technologies new concepts are needed. The resistive...