Abstract: An electrode structure has a layer of at least two interdigitated materials, a first material being an electrically conductive material and a second material being an ionically conductive material, the materials residing co-planarly on a membrane in fluid form, at least one of the interdigitated materials forming a feature having an aspect ratio greater than one.

Abstract: A co-extrusion device has at least one first inlet port to receive a first material, at least one second inlet port to receive a second material, a first combining channel arranged to receive the first material and the second material and combine the first and second materials into a first combined flow flowing in a first direction. a splitter channel arranged to receive the first combined flow and to split the first combined flow into at least two split flows in a second direction at least partially orthogonal to the first direction, wherein each split flow consists of the first and second materials, and a second combining channel arranged to receive the split flows and combine the split flows into a second combined flow in the first direction, and at least one exit orifice arranged to allow the materials to exit the device as a single flow.

Abstract: A solar energy harvesting system including a sunlight concentrating member (e.g., a lens array) for focusing direct sunlight at predetermined focal points inside a waveguide containing a stimuli-responsive material (SRM) that is evenly distributed throughout the waveguide material such that the SRM assumes a relatively high transparency state away from the focused sunlight, and small light-scattering portions of the SRM change to a relatively opaque (light scattering) state only in focal zone regions adjacent to the concentrated sunlight. The outer waveguide surfaces are locally parallel (e.g., planar) and formed such that sunlight scattered by the light-scattering SRM portions is transmitted by total internal reflection through the remaining transparent waveguide material, and outcoupled to one or more solar energy receivers (e.g., PV cells) that are disposed outside the waveguide (e.g., along the peripheral edge).

Abstract: Various structures, such as microstructures and wall-like structures, can include parts or surfaces that are oblique. In some implementations, a cantilevered element includes a spring-like portion with a uniformly oblique surface or with another artifact of an oblique radiation technique. In some implementations, when a deflecting force is applied, a spring-like portion can provide deflection and spring force within required ranges. Various oblique radiation techniques can be used, such as radiation of a layer through a prism, and structures having spring-like portions with oblique radiation artifacts can be used in various applications, such as with downward or upward deflecting forces.

Abstract: A method for fabricating a backside metallization structure on a semiconductor substrate including moving a printhead having at least one nozzle orifice relative to the semiconductor substrate, and feeding an Al passivation layer ink and an AgAl soldering pad ink through said printhead such that both said Al passivation layer ink and said AgAl soldering pad ink are simultaneously extruded from said at least one nozzle orifice and deposited onto the semiconductor substrate.

Abstract: Wafer-based solar cells are efficiently produced by extruding a dopant bearing material (dopant ink) onto one or more predetermined surface areas of a semiconductor wafer, and then thermally treating the wafer to cause diffusion of dopant from the dopant ink into the wafer to form corresponding doped regions. A multi-plenum extrusion head is used to simultaneously extrude interdigitated dopant ink structures having two different dopant types (e.g., n-type dopant ink and p-type dopant ink) in a self-registered arrangement on the wafer surface. The extrusion head is fabricated by laminating multiple sheets of micro-machined silicon that define one or more ink flow passages. A non-doping or lightly doped ink is co-extruded with heavy doped ink to serve as a spacer or barrier, and optionally forms a cap that entirely covers the heavy doped ink. A hybrid thermal treatment utilizes a gaseous dopant to simultaneously dope exposed portions of the wafer.

Abstract: A micro-extrusion printhead assembly utilized in a micro-extrusion system to form parallel extruded lines of material on a substrate includes a material feed mechanism for pushing/drawing materials out of dispensing orifices defined in the printhead assembly, a Z-axis positioning mechanism, and a base. A production method utilizes the micro-extrusion system to directly print endpoint structures at the end of each gridline, and by extruding these gridlines immediately after forming the busbars. In accordance with an embodiment of the invention, the micro-extrusion system is controlled to manipulate the printhead speed and/or gridline material extrusion pressure at the beginning, middle and end of each gridline printing process such that teardrop-shaped endpoint structures are formed at the ends of each gridline, whereby each endpoint structure has a substantially greater width than that of the main “central” gridline structure extending between the endpoint structures.

Abstract: A micro-extrusion printhead assembly utilized in a micro-extrusion system to form parallel extruded lines of material on a substrate includes a material feed system for pushing/drawing materials out of extrusion nozzles defined in the printhead assembly, a Z-axis positioning mechanism, and a base. The micro-extrusion printhead includes a layered nozzle structure sandwiched between back and front plate structures. The layered nozzle structure includes stacked plates including top and bottom nozzle plates sandwiching a nozzle outlet plate. According to various embodiments, at least one of the nozzle structure materials of the printhead assembly, the output geometry of the printhead assembly, and the internal conduit geometry of the printhead assembly are modified to cause the bead traveling through the extrusion nozzle to be reliably directed (biased) toward the target substrate as it leaves the printhead nozzle orifice.

Abstract: A system and method for financing a rideshare system is provided. A rideshare transaction is arranged. Potential participants are identified for the rideshare transaction. Two or more of the potential participants are matched for inclusion in the rideshare transaction. Revenue is derived through an offering of insurance coverage for the arranged rideshare transaction.

Abstract: A system and method for monitoring the security of participants in a rideshare environment is provided. A rideshare transaction is monitored between two or more rideshare participants. At least one of the rideshare participants is associated with a rideshare participant device. A predetermined route for the rideshare transaction is identified. A location of the rideshare participant device is monitored. A security check is triggered when the rideshare participant device location is inconsistent with the predetermined route.

Abstract: Improved coextruded ribbons of material, such as can be used for making relatively fine conductive or ceramic lines or structures, having relatively high aspect ratios, are provided. The inks used to form the coextruded structures lack a yield stress and a high viscosity, but react at their interface to form a material having a finite yield stress or a high viscosity. This material then supports the shape of the extruded ink such that structures can be formed therefrom.

Abstract: Fluidic conduits, which can be used in microarraying systems, dip pen nanolithography systems, fluidic circuits, and microfluidic systems, are disclosed that use channel spring probes that include at least one capillary channel. Formed from spring beams (e.g., stressy metal beams) that curve away from the substrate when released, channels can either be integrated into the spring beams or formed on the spring beams. Capillary forces produced by the narrow channels allow liquid to be gathered, held, and dispensed by the channel spring probes. Because the channel spring beams can be produced using conventional semiconductor processes, significant design flexibility and cost efficiencies can be achieved.

Abstract: Solar cells include bus bars and high aspect-ratio gridlines that are printed on a substrate, and localized melting is induced to slump or flatten the gridline “vertex” portions that are disposed on the bus bars, while maintaining the high aspect-ratio of gridlines portions disposed on the substrate between the bus bars. The localized melting process is induced using one of several disclosed methods, such as rheological melting in which the two printed inks produce a compound that is relatively liquid. Localized melting is also induced using a deliquescing material (e.g., a flux or a solvent film) that is applied to the bus bar or gridline material. Also, eutectic melting is induced using a processing temperature that is between a melting point of the combined gridline/bus bar inks and the individual melting points of the inks alone. Laser-based melting and the use of copolymers is also disclosed.

Abstract: A flexible photovoltaic module has a flexible substrate having integrated electrically conductive portions, an array of functional tiles on the substrate, wherein the functional tiles include solar cell tiles, the functional tiles being separated by a spacing which determines the bending radius of the module, the tiles at least partially in electrical contact with the electrically conductive portions, the solar tiles electrically connected in one of either electrical series or parallel configuration to produce an electrical power output.

Abstract: A printing plate has a substrate, an array of cells on the substrate, wherein each cell corresponds to an element of a print image, a deformable polymer material localized into the cells such that each cell is at least partially formed from the deformable polymer material, a reservoir corresponding to each cell to collect the deformable polymer material as needed when the deformable polymer material is one of either melted or softened, and a heater to cause the deformable polymer material to either melt or soften.

Abstract: A self-adjusting solar light transmission (daylighting) apparatus includes a sunlight concentrating member (e.g., a lens array) for concentrating direct sunlight in focal zone regions disposed inside a sheet containing an evenly-distributed stimuli-responsive material (SRM) that has a relatively high transparency state in the absence of concentrated sunlight, and changes to a relatively opaque (light scattering or absorbing) state in small portions located in the focal zone regions in response to concentrated direct sunlight. Thereby, 80% or more of direct sunlight is prevented from passing through the apparatus, but 80% or more of diffuse light is passed. The outer sheet surfaces are locally parallel (e.g., planar) such that sunlight scattered by the light-scattering SRM portions is transmitted by total internal reflection through the remaining transparent sheet material, and outcoupled to one or more optional solar energy absorbing structures (e.g.

Abstract: A system and method for setting a rideshare transaction fee is provided. Data is maintained for rideshare transactions, each associated with a route. At least one rideshare transaction that travels along a particular route is identified. A number of drivers offering transportation on that particular route and a number of passengers seeking transportation on the particular route are determined. A transaction fee for the rideshare transaction along the particular route is set. The transaction fee is increased when there are more passengers seeking transportation than drivers offering transportation. The transaction fee is decreased when there are more drivers offering transportation than passengers seeking transportation.

Abstract: A method of forming spring structures using a single lithographic operation is described. In particular, a single lithographic operation both defines the spring area and also defines what areas of the spring will be uplifted. By eliminating a second lithographic operation to define a spring release area, processing costs for spring fabrication can be reduced.

Abstract: A system and method for financing a rideshare system is provided. A rideshare transaction is arranged. Potential participants are identified for the rideshare transaction. Two or more of the potential participants are matched for inclusion in the rideshare transaction. Revenue is derived through an offering of insurance coverage for the arranged rideshare transaction.

Abstract: A system and method for setting a rideshare transaction fee is provided. Data is maintained for rideshare transactions, each associated with a route. At least one rideshare transaction that travels along a particular route is identified. A number of drivers offering transportation on that particular route and a number of passengers seeking transportation on the particular route are determined. A transaction fee for the rideshare transaction along the particular route is set. The transaction fee is increased when there are more passengers seeking transportation than drivers offering transportation. The transaction fee is decreased when there are more drivers offering transportation than passengers seeking transportation.