Add to ORKGIn this thesis, nano-sized metal/oxide interfaces are fabricated to determine the size dependence of electronic and resistive switching properties, effect of atomic structure on the orientation dependence of electronic properties, and mechanisms of plasmon-induced current enhancement. A combination of drop-casting and high temperature annealing enables orientation control over nano-sized metal/oxide interfaces. To examine the electronic properties, individual Au nanoparticle/SrTiO3 interfaces with sizes ranging from 20 to 150 nm are characterized via conductive atomic force microscopy, for two distinct interface orientations. Current-voltage characterization enables the determination of dominant electron transport mechanisms. The developmen...
The surface barrier systems consisting of gold and palladium on both chemically prepared and cleaved...
Metal-semiconductor interfaces will play an increasingly larger role in electronic and opto-electron...
A mechanically formed electrical nanocontact between gold and tungsten is a prototypical junction be...
In this thesis, nano-sized metal/oxide interfaces are fabricated to determine the size dependence of...
In this thesis, nano-sized metal/oxide interfaces are fabricated to determine the size dependence of...
We use ballistic electron emission microscopy to investigate prototypical Au/Nb-doped SrTiO3(NSTO) S...
Strontium titanate (SrTiO3) is a superconducting semiconductor possessing characteristics which sugg...
Plasmonically active nanoparticles offer a promising pathway to extend the absorption range of photo...
Recently, resistive switching devices have emerged as promising candidates for next generation non-v...
Plasmon-induced carrier transfer at metallic nanoparticle/semiconductor heterojunctions has received...
Localised Surface Plasmon Resonances (LSPR) are fascinating optical phenomena occurring in metal nan...
Electron doped SrTiO3, a complex-oxide semiconductor, possesses novel electronic properties due to i...
We have investigated electron transport in Nb doped SrTiO3 single crystals for two doping densities....
In this thesis, the sensitivity of a range of plasmonic gold nanostructures to changes in ambient el...
Selecting the electrical properties of nanomaterials is essential if their potential as manufacturab...
The surface barrier systems consisting of gold and palladium on both chemically prepared and cleaved...
Metal-semiconductor interfaces will play an increasingly larger role in electronic and opto-electron...
A mechanically formed electrical nanocontact between gold and tungsten is a prototypical junction be...
In this thesis, nano-sized metal/oxide interfaces are fabricated to determine the size dependence of...
In this thesis, nano-sized metal/oxide interfaces are fabricated to determine the size dependence of...
We use ballistic electron emission microscopy to investigate prototypical Au/Nb-doped SrTiO3(NSTO) S...
Strontium titanate (SrTiO3) is a superconducting semiconductor possessing characteristics which sugg...
Plasmonically active nanoparticles offer a promising pathway to extend the absorption range of photo...
Recently, resistive switching devices have emerged as promising candidates for next generation non-v...
Plasmon-induced carrier transfer at metallic nanoparticle/semiconductor heterojunctions has received...
Localised Surface Plasmon Resonances (LSPR) are fascinating optical phenomena occurring in metal nan...
Electron doped SrTiO3, a complex-oxide semiconductor, possesses novel electronic properties due to i...
We have investigated electron transport in Nb doped SrTiO3 single crystals for two doping densities....
In this thesis, the sensitivity of a range of plasmonic gold nanostructures to changes in ambient el...
Selecting the electrical properties of nanomaterials is essential if their potential as manufacturab...
The surface barrier systems consisting of gold and palladium on both chemically prepared and cleaved...
Metal-semiconductor interfaces will play an increasingly larger role in electronic and opto-electron...
A mechanically formed electrical nanocontact between gold and tungsten is a prototypical junction be...