Abstract: An optically controlled switch includes first and second electrodes, a channel extending between the electrodes, and a light source positioned to illuminate the channel. The light source produces a wavelength capable of changing the material's conductivity. The channel includes a photosensitive organic material and is configured to operate as a light controlled switch.

Abstract: A method is disclosed for producing a high-resolution patterned layer on a substrate for use in making electronic devices. The method comprises micro-printing an inked pattern on a substrate with use of a rotatable stamp; passing the substrate to an apparatus for etching or depositing materials on the substrate, where the inked pattern guides the etching or deposition of material; and then optionally removing the inked pattern from the substrate with the application of heat, ultraviolet light, or wet chemical means. A high-quality transistor with a 2-micron channel length may be fabricated using the inventive method. The method is compatible with rapid, reel-to-reel patterning and useful for a range of applications.

Abstract: A method fabricates ICs in which organic semiconductor crystallites serve as active channels of semiconductor devices. The method includes providing a substrate with a surface that has a preselected pattern of adhesion sites located thereon. The adhesion sites are prepared to adhere crystallites of an organic semiconductor. The method also includes applying a plurality of crystallites of the organic semiconductor to the surface to enable a portion of the applied crystallites to adhere at the prepared adhesion sites.

Abstract: A method of producing a nanofeature or a nanocircuit on a substrate, including soaking a stamp having a nanopattern thereon in an ink to allow the ink to absorb into the stamp and provide an inked stamp, and applying the inked stamp against a substrate to transfer an ink pattern onto the substrate, wherein the ink within the inked stamp replenishes the pattern in response to the transfer of the ink pattern.

Abstract: A tunable microlens uses a layer of photo-conducting material which results in a voltage differential between at least one of a plurality of electrodes and a droplet of conducting liquid when a light beam is incident upon the photo-conducting material. Such droplet, which forms the optics of the microlens, moves toward an electrode with higher voltage relative to other electrodes in the microlens. Thus, for example, when the light beam is misaligned with the microlens, the voltage differential causes the droplet, and hence the microlens, to realign itself with the beam.

Abstract: The specification describes a pattern transfer technique for forming patterns of thin films of high resolution over large areas. It involves forming a pattern layer on a transfer substrate, patterning the pattern layer while on the transfer substrate, then contacting the transfer substrate with the receiving substrate. The surface of the receiving substrate is treated to activate the surface thereby improving adhesion of the transfer pattern to the receiving substrate. The activation treatment involves forming a layer of metal particles on the surface of the receiving substrate. The pattern layer is preferably of the same metal, or a similar metal or alloy, and is transferred from the transfer substrate to the receiving substrate by metallurgical bonding.

Abstract: A tunable microlens uses a layer of photo-conducting material which results in a voltage differential between at least one of a plurality of electrodes and a droplet of conducting liquid when a light beam is incident upon the photo-conducting material. Such a droplet, which forms the optics of the microlens, moves toward an electrode with a higher voltage relative to other electrodes in the microlens. In one embodiment, when a misalignment of the beam and microlens occurs, an electronic circuit creates the aforementioned differential. In a second embodiment, two layers of electrodes are used, an upper layer and a lower layer. Each electrode in a lower layer of electrodes is electrically coupled to an electrode in the upper layer directly opposed to the lower-layer electrode. When the light beam is misaligned with the microlens, a voltage differential between the droplet and the electrodes in the upper layer automatically causes the droplet, and hence the microlens, to realign itself with the beam.

Abstract: The specification describes a lamination method for thin film transistor TFT devices wherein each ply of the laminate is a polymer and each contains a portion of the TFT or the interconnection circuit. The plies are laminated together using a solid adhesive polymer layer on the surface of one or both of the plies. The solid adhesive polymer layer has a low elastic modulus that provides effective encapsulation of the TFT, and laminates the plies without high heat or pressure.

Abstract: An electrooptic device and method for making the same, including one or more of substrate, a buffer layer, a charge dissipation layer, and electrodes. An F− containing active trapping layer is deposited at the substrate/buffer interface, within the buffer layer, and/or on top of the buffer layer. The active F− ions in the F− containing active trapping layer react with positive ions, such as Li+ from the substrate to form stable compounds such as LiF. Porous material such as carbon nanotubes may be used in place of or in addition to the F− containing active trapping layer. The reduced number of Li+ ions reduces the DC drift of the associated electrooptic device. The profile of the implanted ions may be adjusted to control and/or optimize the properties of the electrooptic device. Fluorine is particularly advantageous because it also lowers the dielectric constant thereby facilitating higher frequency operation.

Abstract: A technique for forming functionalized particles, where such particles are readily formed into periodic structures. A layer of particles is formed on a substrate, a first material is deposited over at least a portion of each of the particles, and then a functionalizing agent is attached to the first material. The functionalized particles are then capable of being formed into an ordered structure, by selection of appropriate complementary functionalizing agents on a substrate and/or on other particles and/or on other regions of the same particles.

Abstract: The invention relates to poly(phenylene vinylene) polymers substituted with dendritic sidechains to enhance main-chain separation in the solid state. The polymers are synthesized by the Heck polymerization and have a weight-average molecular weight of 20,000 to 60,000 Daltons. The polymers are self-ordering in the solid state and have thermotropic liquid crystalline phases. The polymers show enhanced photoconductivity, better charge transport capability and improved polarized light emission.

Abstract: A polarized organic photonics device, including an LED or photovoltaic device, is comprised of a first conductive layer or electrode coated with a friction transferred alignment material, a photoactive material, and a second electrically conductive layer or electrode. The alignment material provides for the orientation of the subsequently deposited photoactive material such that the photoactive material interacts with or emits light preferentially along a selected polarization axis. Additional layers and sublayers optimize and tune the optical and electronic responses of the device.

Abstract: An electronic odor sensor includes first and second amplifiers, a biasing network, and a device connected to receive the output signals from the first and second amplifiers. The device is configured to correlate the received output signals to the presence or absence of an odor. The first and second amplifiers have respective first and second organic semiconductor layers and are configured to produce output signals responsive to the conductivities of their respective organic semiconductor layers. The conductivities of the organic semiconductor layers are responsive to voltages applied to associated ones of the amplifiers and to the presence of the odor. The biasing network applies the voltages to the amplifiers.

Abstract: The specification describes thin film transistor (TFT) devices with source/drain contacts made by a metallo organic deposition (MOD) method wherein a metallo organic compound/metal particulate mixture is deposited to form a base pattern, and the base pattern is then plated with gold. The porous, relatively high resistance base pattern is thereby converted to a corrosion resistant, low resistance contact. The plating covers the sidewalls of the base pattern, thus allowing the final channel length to be less than the minimum design rule used for depositing the base pattern.

Abstract: A method for making an apparatus, for example, comprises attaching at least one self-assembled monolayer to a first element formed on a substrate. Thereafter, at least one attaching layer is formed on the substrate, adjacent to the one or more self-assembled monolayers. A second element is then formed on the one or more attaching layers spaced from the first element by about a length of the one or more self-assembled monolayers.

Abstract: A polarized organic photonics device, including an LED or photovoltaic device, is comprised of a first conductive layer or electrode coated with a friction transferred alignment material, a photoactive material, and a second electrically conductive layer or electrode. The alignment material provides for the orientation of the subsequently deposited photoactive material such that the photoactive material interacts with or emits light preferentially along a selected polarization axis. Additional layers and sublayers optimize and tune the optical and electronic responses of the device.

Abstract: A polarized organic photonics device, including an LED or photovoltaic device, is comprised of a first conductive layer or electrode coated with a friction transferred alignment material, a photoactive material, and a second electrically conductive layer or electrode. The alignment material provides for the orientation of the subsequently deposited photoactive material such that the photoactive material interacts with or emits light preferentially along a selected polarization axis. Additional layers and sublayers optimize and tune the optical and electronic responses of the device.

Abstract: An optically controlled switch includes first and second electrodes, a channel extending between the electrodes, and a light source positioned to illuminate the channel. The light source produces a wavelength capable of changing the material's conductivity. The channel includes a photosensitive organic material and is configured to operate as a light controlled switch.

Abstract: A three-terminal device includes first electrode, second electrode, gate electrode and an active channel coupling the first and second electrodes. The active channel has a layer of organic molecules with conjugated multiple bonds. The delocalized &pgr;-orbitals associated with the conjugated multiple bonds extend normal to the layer.

Abstract: The invention relates to poly(phenylene vinylene) polymers substituted with dendritic sidechains to enhance main-chain separation in the solid state. The polymers are synthesized by the Heck polymerization and have a weight-average molecular weight of 20,000 to 60,000 Daltons. The polymers are self-ordering in the solid state and have thermotropic liquid crystalline phases. The polymers show enhanced photoconductivity, better charge transport capability and improved polarized light emission.