Current affiliation: Northwestern UniversitySubject: ChemistryPrimary location: United States
Published in:NanoscalePublication date:2014-01-01
Published in:The Journal of Physical Chemistry CPublication date:2014-03-04
Published in:ACS NanoPublication date:2011-02-22
Published in:Analytical ChemistryPublication date:2013-10-09
Published in:The Journal of Physical Chemistry CPublication date:2012-12-27
Published in:The Journal of Physical Chemistry LettersPublication date:2011-05-19
Published in:Annalen der PhysikPublication date:2012-10-15
Published in:Surface Plasmon Enhanced, Coupled and Controlled FluorescencePublication date:2017-03-17
Published in:ACS NanoPublication date:2017-07-14
Almost all ratchet theory papers use 1D models. However, experimental ratchets typically have a 3D transport layer, which, due to symmetry, can be ...
Published in:Materials HorizonsPublication date:2017-01-01
An accessible introduction to ratchets, discussing the basics of the field, and where we stand today.
Three conditions are needed to achieve trans...
Published in:Proceedings of the National Academy of SciencesPublication date:2017-07-31
The device is similar to field effect transistors, in a co-planar, bottom-gate geometry. An array of “finger electrodes” (FEs) with an asymmetric t...
Published in:Physical Review EPublication date:2016-06-20
A theoretical study exploring the effect the shape of the applied potential has on the current obtained in an electron ratchet.
Typically, both th...
Published in:Advanced Energy MaterialsPublication date:2017-08-22
A theoretical study, proposing a design for a device capable of using low-energy photons to produce an electrical current, by using the ratchet pri...
Published in:Nano LettersPublication date:2017-08-21
Varying the properties of the waveform used to drive an electron ratchet, seeing how to optimize the current, and comparing the experimental result...