Abstract: A device for sampling liquid samples is provided comprising a capillary-active channel, a sampling site, and a determination site. The capillary-active channel is configured for transporting a sample from the sampling site to the determination site. The capillary-active channel is substantially formed by a carrier, a cover and an intermediate layer located between the carrier and cover. The carrier protrudes beyond the cover in the area of the sampling site. The intermediate layer is displaced towards the back in the direction of the determination site in the area of the sampling site so that the carrier as well as the cover protrude beyond the intermediate layer. The device allows sample to be applied from above onto the exposed area of the carrier in the area of the sampling site and also allows sample to be applied from the side.

Abstract: A device and method wherein a thermo electric generator device is disposed between stacks of a multiple level device, or is provided on or under a die of a package and is conductively connected to the package. The thermo electric generator device is configured to generate a voltage by converting heat into electric power. The voltage which is generated by the thermo electric generator can be recycled back into the die itself, or to a higher-level unit in the system, even to a cooling fan.

Abstract: Methods and apparatus are provided for the generation of hydrogen peroxide from an electrochemical (EC) cell arrangement. One embodiment of the apparatus comprises an EC cell having anode and cathode electrodes with a cation exchange membrane disposed between them to form anode and cathode compartments. An aqueous salt solution is supplied to the anode compartment and water and oxygen are supplied to the cathode compartment. An electric potential applied across the anode and cathode electrodes initiates an electrochemical process that results in the formation of an acid anolyte solution in the anode compartment and an alkaline catholyte solution in the cathode compartment. The anolyte solution and the catholyte solution are combined in a neutralizing chamber to form a neutral aqueous solution comprising hydrogen peroxide, salt, and water. The hydrogen peroxide is separated from the neutral aqueous solution by conventional means.

Abstract: A mounting system is provided for solar modules with a compressable retention structure for solar modules. The retention structure may interleave a upper and lower rail that provides a shelf or other support structure in order to hold a solar module or panel in an operative position. The upper and lower rails may be compressed towards one another in order to cause the support structure to retain the solar modules or panels.

Abstract: A multi-junction device can be used as a high efficiency solar cell, laser, or light-emitting diode. Multiple epitaxial films grown over a substrate have very low defect densities because an initial epitaxial layer is a coincidence-site lattice (CSL) layer that has III-V atoms that fit into lattice sites of Silicon atoms in the substrate. The substrate is a Si (111) substrate which has a step height between adjacent terraces on its surface that closely matches the step height of GaAs (111). Any anti-phase boundaries (APBs) formed at terrace steps cancel out within a few atomic layers of GaAs in the (111) orientation since the polarity of the GaAs molecule is aligned with the (111) direction. A low CSL growth temperature grows GaAs horizontally along Si terraces before vertical growth. Tunnel diode and active solar-cell junction layers can be grown over the CSL at higher temperatures.

Abstract: Photovoltaic cells, including silicon solar cells, and methods and compositions for making such photovoltaic cells are provided. A silicon substrate having an n-type silicon layer is provided with a silicon nitride layer, a reactive metal in contact with said silicon nitride layer, and a non-reactive metal in contact with the reactive metal. This assembly is fired to form a low Schottky barrier height contact comprised of metal nitride, and optionally metal silicide, on the silicon substrate, and a conductive metal electrode in contact with said low Schottky barrier height contact. The reactive metal may be titanium, zirconium, hafnium, vanadium, niobium, and tantalum, and combinations thereof, and the non-reactive metal may be silver, tin, bismuth, lead, antimony, arsenic, indium, zinc, germanium, nickel, phosphorus, gold, cadmium, berrylium, and combinations thereof.

Abstract: A photovoltaic roofing system and a method of installing the photovoltaic ridge cap structure have been provided. The photovoltaic roofing system includes a ridge cap adapted to cover a ridge of a roof structure. The system also includes at least one photovoltaic cell disposed within the ridge cap. The method of installing a photovoltaic ridge cap structure includes mounting the ridge cap over multiple photovoltaic cells along a ridge of a roof structure. The method further includes routing electrical leads from each photovoltaic cell through one or more openings along the ridge of the roof structure.

Abstract: A thermoelectric generator has a top plate disposed in spaced relation above a bottom plate. A series of foil segments are electrically and mechanically connected end-to-end to generate a foil assembly that is spirally wound and in thermal contact with the bottom and top plates. Each foil segment comprises a substrate having a series of spaced alternating n-type and p-type thermoelectric legs disposed in parallel arrangement on the front substrate surface. Each of the n-type and p-type legs is formed of a bismuth telluride-based thermoelectric material having a thickness of about 10-100 microns, a width of about 10-100 microns and a length of about 100-500 microns. The alternating n-type and p-type thermoelectric legs are electrically connected in series and thermally connected in parallel such that a temperature differential between the bottom and top plates results in the generation of power.

Abstract: A retractable solar panel system, which includes a plurality of solar panels, and a system for extending and retracting the plurality of solar panels. The plurality of solar panels can be configured to be attachable to a nautical stay, wherein the stay is fixed at one end to a hull of the sailboat and at a second end to a mast of the sailboat.

Abstract: Disclosed is a solar cell having at least one photovoltaic layer made of an organic material, in particular a polymer material, which absorbs light and in which electron-hole pairs can be produced, said solar cell having two opposite layer surfaces of which one is connected with at least one hole-receiving layer produced inside said photovoltaic layer and the other is connected with at least one electron-receiving layer produced inside said photovoltaic layer, as well as having electrode areas En and Ep, of which one said electrode area is electrically contacted to said hole-receiving layer and the other said electrode area is electrically connected to said electron receiving layer.

Abstract: A thermoelectric device comprises a plurality of semiconductor elements comprising a first set of semiconductor elements and a second set of semiconductor elements, which include dissimilar electrical properties. The semiconductor elements are oriented in a substantially hexagonal array that includes rows in which semiconductor elements of the first and second sets of semiconductor elements alternate.

Abstract: The present invention provides a test strip for measuring a concentration of an analyte of interest in a biological fluid, wherein the test strip may be encoded with information that can be read by a test meter into which the test strip is inserted.

Abstract: A solar cell attaining high efficiency in photoelectric conversion is provided. A method of manufacturing a solar cell having a grid electrode and a main electrode for external output of electric power from the grid electrode includes the steps of forming a small-width grid electrode on a light-receiving surface of a substrate having a pn junction by sintering a metal paste material, and forming a bar-shaped main electrode electrically connected to the grid electrode.

Abstract: In one aspect, the present invention relates to a photovoltaic module. In one embodiment, the photovoltaic module includes a plurality of photovoltaic cells spatially formed on a substrate in an array along a transverse direction. Each photovoltaic cell has a first conductive layer formed on the substrate, having a first end portion and an opposite, second end portion defining a body portion therebetween, where the body portion has a first thickness and at least one of the first and second end portions has a second thickness being variable from the first thickness to zero along the transverse direction, an active layer at least partially formed on the first conductive layer and extending onto the substrate at the at least one end portion, and a second conductive layer at least partially formed on the active layer.

Abstract: High efficiency conversion of heat energy to electrical energy is achieved using a ring of metallic components and anodically sliced, reduced barriers, high purity n-type and p-type semiconductor wafers. Energy produced by heating one set of fins and cooling another set is extracted from a ring of bismuth telluride based n-type wafers and antimony telluride based p-type wafers using make-before-break control of MOSfet switch banks. Standard AC frequencies and DC output result from rectification of make-before-break high frequency switched very high currents in the ring and a DC to AC converter. Solar energy stored in porcelain fragments extends the time that solar energy can be used as the heat source for the thermoelectric generator device.

Abstract: An array of solar powered photovoltaic modules is optimally oriented and operated to provide more electrical energy for uses such as powering an electrolyzer system for hydrogen production. The array is positioned with its light receiving surface at an optimal angle, preferably a continually changing angle determined by two-axis solar tracking, when continually measured solar irradiance indicates suitable sunlight, and at a horizontal position when measured solar irradiance indicates excessive atmospheric cloudiness.

Abstract: A solar cell module comprises an array of lenses, corresponding secondary optical elements and corresponding solar cell receivers. The solar cell receiver includes a solar cell having one or more III-V compound semiconductor layers, a diode coupled in parallel with the solar cell and connector for coupling to other solar cell receivers. The module includes a housing that supports the lenses such that each lens concentrates solar energy onto its respective solar cell.

Abstract: Examples of device structures utilizing layers of rare earth oxides to perform the tasks of strain engineering in transitioning between semiconductor layers of different composition and/or lattice orientation and size are given. A structure comprising a plurality of semiconductor layers separated by transition layer(s) comprising two or more rare earth compounds operable as a sink for structural defects is disclosed.

Abstract: Disclosed is a porous electrode comprising a porous film (A) with through pores and an electrically conducting material selected from the group consisting of conductor and semiconductor, the porous film (A) having an average pore size d1 of from 0.02 to 3 ?m and a porosity of from 40 to 90%, the electrically conducting material being filled in the through pores of the porous film (A). A dye-sensitized solar cell and an electric double layer capacitor including the porous electrode as a constituent are also disclosed.

Abstract: The use of rare-earth (RE and O, N, P) based materials to transition between two different semiconductor materials and enable up and/or down conversion of incident radiation is disclosed. Rare earth based oxides, nitrides and phosphides provide a wide range of lattice spacing enabling, compressive, tensile or stress-free lattice matching with Group IV, III-V, and Group II-VI compounds.