Add to ORKGNanoelectronics consist of devices with active electronic components on the nanometer length scale. At such dimensions most, if not all, atoms or molecules composing the active device region must be on or near a surface. Also, materials effectively confined to two dimensions, or when subject to abrupt boundary conditions, generally do not behave the same as materials inside three dimensional, continuous structures. This thesis is a quantitative determination of how surfaces and interfaces in organic nanoelectronic devices affect properties such as charge transport, electronic structure, and material fluctuations. Si/SiO2 is a model gate/gate dielectric for organic thin film transistors, therefore proper characterization and measurement of...
The objective of this work is to understand how the thin film characteristics of p-type organic and ...
Organic materials are playing an increasing role in modern microelectronic devices-beyond their trad...
The research presented here was conducted in the Department of Chemistry at the University of Pittsb...
This thesis explores fabrication methods and characterization of novel materials used in field effec...
Organic electronics comprises a field of study at the intersection of chemistry, physics, electrical...
Thesis (Ph. D.)--University of Rochester. Department of Physics and Astronomy, 2015.In recent decade...
Internal interfaces in materials play an important role in the performance of many devices used in e...
Establishing the rather complex correlation between the structure and the charge transfer in organi...
Abstract: New nanostructured semiconductor materials such as nanocrystals and organic semiconductors...
As design rules shrink to conform with ULSI device dimensions, gate dielectrics for MOSFET structure...
Organic thin films are central to many cutting-edge electronic devices. Improving our understanding ...
Journal ArticleFabrication techniques of metal-oxide-semiconductor ~(MOS) transistors have been imp...
We have built a model organic field-effect transistor that is basically composed of a single layer o...
Organic electronics are an integral area of research because organic semiconductors can be lightweig...
One of the fundamental points in determining the electrical performances in organic devices is that,...
The objective of this work is to understand how the thin film characteristics of p-type organic and ...
Organic materials are playing an increasing role in modern microelectronic devices-beyond their trad...
The research presented here was conducted in the Department of Chemistry at the University of Pittsb...
This thesis explores fabrication methods and characterization of novel materials used in field effec...
Organic electronics comprises a field of study at the intersection of chemistry, physics, electrical...
Thesis (Ph. D.)--University of Rochester. Department of Physics and Astronomy, 2015.In recent decade...
Internal interfaces in materials play an important role in the performance of many devices used in e...
Establishing the rather complex correlation between the structure and the charge transfer in organi...
Abstract: New nanostructured semiconductor materials such as nanocrystals and organic semiconductors...
As design rules shrink to conform with ULSI device dimensions, gate dielectrics for MOSFET structure...
Organic thin films are central to many cutting-edge electronic devices. Improving our understanding ...
Journal ArticleFabrication techniques of metal-oxide-semiconductor ~(MOS) transistors have been imp...
We have built a model organic field-effect transistor that is basically composed of a single layer o...
Organic electronics are an integral area of research because organic semiconductors can be lightweig...
One of the fundamental points in determining the electrical performances in organic devices is that,...
The objective of this work is to understand how the thin film characteristics of p-type organic and ...
Organic materials are playing an increasing role in modern microelectronic devices-beyond their trad...
The research presented here was conducted in the Department of Chemistry at the University of Pittsb...