Abstract: An electro-optical device can include a plurality of nanocrystals positioned between a first electrode and a second electrode.

Abstract: Electrical conductance measurement system including a one-dimensional semiconducting channel, with electrical conductance sensitive to electrostatic fluctuations, in a circuit for measuring channel electrical current. An electrically-conductive element is disposed at a location at which the element is capacitively coupled to the channel; a midpoint of the element aligned with about a midpoint of the channel, and connected to first and second electrically-conductive contact pads that are together in a circuit connected to apply a changing voltage across the element. The electrically-conductive contact pads are laterally spaced from the midpoint of the element by a distance of at least about three times a screening length of the element, given in SI units as (K?0/e2D(EF))1/2, where K is the static dielectric constant, ?0 is the permittivity of free space, e is electron charge, and D(EF) is the density of states at the Fermi energy for the element.

Abstract: An electro-optical device can include a plurality of nanocrystals positioned between a first electrode and a second electrode.

Abstract: Electrical conductance measurement system including a one-dimensional semiconducting channel, with electrical conductance sensitive to electrostatic fluctuations, in a circuit for measuring channel electrical current. An electrically-conductive element is disposed at a location at which the element is capacitively coupled to the channel; a midpoint of the element aligned with about a midpoint of the channel, and connected to first and second electrically-conductive contact pads that are together in a circuit connected to apply a changing voltage across the element. The electrically-conductive contact pads are laterally spaced from the midpoint of the element by a distance of at least about three times a screening length of the element, given in SI units as (K?0/e2D(EF))1/2, where K is the static dielectric constant, ?0 is the permittivity of free space, e is electron charge, and D(EF) is the density of states at the Fermi energy for the element.

Abstract: An electro-optical device can include a plurality of nanocrystals positioned between a first electrode and a second electrode. The nanocrystal and at least one electrode can have a band gap offset sufficient to inject a charge carrier from the first electrode or second electrode into the nanocrystal. The device can be a secondary photoconductor.

Abstract: An electro-optical device can include a plurality of nanocrystals positioned between a first electrode and a second electrode.

Abstract: An apparatus and process utilizes microwave energy for depositing amorphous alloy materials in layered form onto a receiving surface. The process results in materials having unique properties suitable for many applications including photovoltaic applications. The process includes the steps of providing at least one source of microwave energy, providing at least two reaction gases, each gas containing at least one alloying element to be deposited onto the receiving surface, and selectively exciting the reaction gases with microwave energy to create excited species containing the alloying elements to be deposited for depositing the alloys in alternating layers onto the receiving surface. For depositing alternating layers of silicon and germanium alloys, the reactions gases can include silane (SiH.sub.4) or silicon tetrafluoride (SiF.sub.4), and germane (GeH.sub.4) or germanium tetrafluoride (GeF.sub.4).