Add to ORKGThis thesis report is submitted in partial fulfilment of the requirements for the degree of Bachelor of Science in Electrical and Electronic Engineering, 2017.Cataloged from PDF version of thesis.Includes bibliographical references (page 35-39).Eectron transport through single particles is emphatically influenced by single-electron charging and the vitality level quantization. In this proposition, we research electron transport in single particle transistors made with a few unique particles, including fullerene particles and single Co particles with various lengths. To perform transport estimations on these little (<3 nm) particles, cathodes with a hole that is 1~2 nm wide are manufactured using the electro migration-intersection system. We...
This thesis presents research involving the electrical characterization of single-walled carbon nano...
Single electron transistor (SET) is a nano dimension device that is offered by technology to solve t...
The exponential downscaling of (sub-) microelectronic devices known as Mooreâs law will continue in ...
In this thesis Postma presents transport experiments performed on individual single-wall carbon nano...
This Thesis is submitted in partial fulfillment of the requirements for the degree of Bachelor of Ap...
Single electron transistors (SET) have attracted significant attention as a potential building block...
Low temperature electron transport measurements on individual single wall carbon nanotubes are descr...
Abstract — Nanotechnology is ushering in the era of self-replicating machinery and self-assembling c...
We have studied the electronic properties of single-wall carbon nanotubes (SWNTs) from room temperat...
We report electronic transport investigations of mechanically templated carbon nanotube single elect...
Single-molecule transistors (SMTs) incorporating individual small molecules are unique tools for exa...
A single-electron transistor is the most sensitive charge detector known today. It is formed by a sm...
As electronic devices become extremely small, the charging energy associated by putting a single ele...
In the pursuit of down-sizing electronic components, the ultimate limit is the use of single molecul...
We describe single-electron tunneling through molecular structures under the influence of nanomechan...
This thesis presents research involving the electrical characterization of single-walled carbon nano...
Single electron transistor (SET) is a nano dimension device that is offered by technology to solve t...
The exponential downscaling of (sub-) microelectronic devices known as Mooreâs law will continue in ...
In this thesis Postma presents transport experiments performed on individual single-wall carbon nano...
This Thesis is submitted in partial fulfillment of the requirements for the degree of Bachelor of Ap...
Single electron transistors (SET) have attracted significant attention as a potential building block...
Low temperature electron transport measurements on individual single wall carbon nanotubes are descr...
Abstract — Nanotechnology is ushering in the era of self-replicating machinery and self-assembling c...
We have studied the electronic properties of single-wall carbon nanotubes (SWNTs) from room temperat...
We report electronic transport investigations of mechanically templated carbon nanotube single elect...
Single-molecule transistors (SMTs) incorporating individual small molecules are unique tools for exa...
A single-electron transistor is the most sensitive charge detector known today. It is formed by a sm...
As electronic devices become extremely small, the charging energy associated by putting a single ele...
In the pursuit of down-sizing electronic components, the ultimate limit is the use of single molecul...
We describe single-electron tunneling through molecular structures under the influence of nanomechan...
This thesis presents research involving the electrical characterization of single-walled carbon nano...
Single electron transistor (SET) is a nano dimension device that is offered by technology to solve t...
The exponential downscaling of (sub-) microelectronic devices known as Mooreâs law will continue in ...