Add to ORKGThis thesis presents a novel sputter erosion sharpening technique for the production of conductive probes on nanometer and atomic scales. This field-directed sputter sharpening procedure is shown to reliably sharpen both tungsten and platinum-iridium alloy probes and to produce atomic-scale topological changes, distinct from traditional sputter erosion sharpening. Possible justification for this effect is presented in the form of controlled ion current modulation at the probe apex. Furthermore, the probes are found to facilitate high-fidelity patterning of the hydrogen passivated silicon surface.unpublishednot peer reviewe
Micro/nanoscale tungsten probes are widely utilized in the fields of surface analysis, biological en...
Everyday devices ranging from computers and cell phones to the LEDs inside traffic lights exploit qu...
We introduce an alternative type of probe for scanning tunneling microscopy (STM). Instead of using ...
This thesis presents a novel sputter erosion sharpening technique for the production of conductive p...
This thesis presents a novel sputter erosion sharpening technique for the production of conductive p...
This thesis investigates the microfabrication of silicon tips for Scanning Probe Microscopy. First, ...
This dissertation is centered on the development of a methodology that aims to engineer millimeter l...
Through her summer research in the Hollen Lab at UNH, Lihy successfully produced scanning tunneling ...
Fabricating and measuring sub-5 nanometer features brings to light several pressing issues in future...
We acquired a used Burleigh instructional scanning tunneling microscope (STM) with functioning hardw...
The era of scanning probe microscopy (SPM) started twenty years ago. A cut gold cantilever with a gl...
As a potential candidate for replacing silicon (Si) as a next-generation semiconducting material, at...
This thesis investigates wet chemically synthesized graphene nanoribbons (GNRs) on semiconductor sub...
This thesis outlines work done to produce in-plane nanoscale field emission devices. Field emission,...
Nanometer scale metals are of great interest due to their potential applications in the future of mo...
Micro/nanoscale tungsten probes are widely utilized in the fields of surface analysis, biological en...
Everyday devices ranging from computers and cell phones to the LEDs inside traffic lights exploit qu...
We introduce an alternative type of probe for scanning tunneling microscopy (STM). Instead of using ...
This thesis presents a novel sputter erosion sharpening technique for the production of conductive p...
This thesis presents a novel sputter erosion sharpening technique for the production of conductive p...
This thesis investigates the microfabrication of silicon tips for Scanning Probe Microscopy. First, ...
This dissertation is centered on the development of a methodology that aims to engineer millimeter l...
Through her summer research in the Hollen Lab at UNH, Lihy successfully produced scanning tunneling ...
Fabricating and measuring sub-5 nanometer features brings to light several pressing issues in future...
We acquired a used Burleigh instructional scanning tunneling microscope (STM) with functioning hardw...
The era of scanning probe microscopy (SPM) started twenty years ago. A cut gold cantilever with a gl...
As a potential candidate for replacing silicon (Si) as a next-generation semiconducting material, at...
This thesis investigates wet chemically synthesized graphene nanoribbons (GNRs) on semiconductor sub...
This thesis outlines work done to produce in-plane nanoscale field emission devices. Field emission,...
Nanometer scale metals are of great interest due to their potential applications in the future of mo...
Micro/nanoscale tungsten probes are widely utilized in the fields of surface analysis, biological en...
Everyday devices ranging from computers and cell phones to the LEDs inside traffic lights exploit qu...
We introduce an alternative type of probe for scanning tunneling microscopy (STM). Instead of using ...