Abstract: A new class of electronic systems, wherein microelectronic semiconductor integrated circuit devices are integrated on a common substrate with molecular electronic devices.

Abstract: The present application relates to an apparatus and method for thermal cycling using a source of cooling gas.

Abstract: The present application relates to an apparatus and method for measuring liquid levels in small-volume wells.

Abstract: The present invention is directed to methods, reagents, and kits for detecting the presence or absence of (or quantifying) target polynucleotide sequences in at least one sample using encoding and decoding reactions. When a particular target polynucleotide is present in a sample, a reaction product is formed in the encoding reaction that includes addressable primer portions. At least one label and at least one address primer is employed in the decoding amplification reaction thereby providing a detectable signal value depending upon whether a sequence is present or absent. In some embodiments universal bases and reduced libraries of probes can be employed for highly multiplexed analysis of target polynucleotides.

Abstract: A filling apparatus for filling a microplate. The microplate having a plurality of wells each sized to receive an assay. The filling apparatus can comprise an assay input layer having a first surface and an opposing second surface. The assay input layer can comprise an assay input port extending from the first surface to the second surface, a venting manifold formed in the second surface, and a vent hole in fluid communication with the venting manifold and atmosphere. An output layer can comprise a plurality of staging capillaries each having an inlet and an outlet. A venting layer can be disposed between the assay input layer and the output layer. The venting layer can comprise a plurality of microfluidic channels, a flow aperture being in fluid communication with the assay input port and the plurality of microfluidic channels, and a plurality of vent apertures each in fluid communication with at least one of the plurality of staging capillaries.

Abstract: A filling apparatus for filling a microplate. The microplate can comprise a plurality of wells each sized to receive an assay. A substrate can comprise a first surface and an opposing second surface, a first assay input port for receiving the assay disposed on the first surface, a plurality of staging capillaries extending through the substrate, and a first plurality of microfluidic channels fluidly coupling the first assay input port with at least one of the plurality of staging capillaries. Each of the plurality of staging capillaries can comprise an inlet and an outlet and be sized to receive the assay.

Abstract: A filling apparatus for filling a microplate. The microplate having a plurality of wells each sized to receive an assay. The filling apparatus can comprise an output layer having a depression and a plurality of staging capillaries. Each of the plurality of staging capillaries can comprises an inlet disposed in the depression and an outlet, and can further be sized to receive the assay. A floating insert comprising a first surface and an opposing second surface, and an aperture for receiving the assay extending therethrough, can be moveably disposed in the depression. The floating insert and the depression can together define a main capillary gap therebetween in fluid communication between the aperture and each of the plurality of staging capillaries. The size of the main capillary gap can vary depending upon the relative position of the floating insert and the output layer.

Abstract: A filling apparatus for filling a microplate. The microplate having a plurality of wells each sized to receive an assay. The filling apparatus can comprise an output layer having a plurality of capillaries. Each of the plurality of capillaries can comprise an inlet and an outlet. A funnel member can comprise a first assay chamber and a first outlet in fluid communication with the first assay chamber. The first outlet can deliver a first fluid bead of the assay along a top surface of the output layer and in fluid communication with at least some of the plurality of capillaries such that a portion of the fluid bead is drawn within at least some of the plurality of capillaries in response to capillary force. The funnel member and the output layer can be moveable relative to each other between a first position and a second position to draw the first fluid bead across the top surface.

Abstract: A filling apparatus for filling a microplate. The microplate having a plurality of wells each sized to receive an assay. The filling apparatus can comprise an output layer having a plurality of capillaries. Each of the plurality of capillaries can comprises an inlet and an outlet. A funnel assembly can comprise a funnel member sized to receive the assay. The funnel member can comprise an outlet for delivering a fluid bead of the assay along a top surface of the output layer and in fluid communication with each of the plurality of capillaries such that a portion of the fluid bead can be drawn within at least some of the plurality of capillaries in response to capillary force. The funnel assembly and the output layer can be moveable relative to each other between a first position and a second position to draw the fluid bead across the top surface.

Abstract: Devices, assemblies, systems and methods described herein enable detection of as few as a single copy of a target nucleic acid molecule. Polynucleotides copied from a single or a small number of target nucleotide(s) within regions near to an initial copying site may be detected by optical or other methods as disclosed herein. Devices, assemblies and systems may comprise probes and/or primer molecules. Systems comprising optical assemblies, thermal assemblies and reaction assemblies (having reaction chambers for amplification of target nucleic acid molecules) are provided in which used reaction assemblies may be replaced to provide reusable devices. Systems comprising analytical assemblies and detection assemblies are provided in which an assay cartridge having assay chambers may engage a thermal assembly for amplification of target nucleic acid molecules. These devices, systems and methods offer the advantages of detection of as few as a single copy of a target nucleic acid molecule.

Abstract: The invention relates to methods and compositions for the detection of targets in a sample.

Abstract: A communication system which communicates messages between telephones. A data storage mechanism includes data specific to a locale of the communication network. A mobile phone has the ability to identifying its specific location of said mobile phone, and, withdrawing data from the data storage means via the communication network.

Abstract: An electronically reconfigurable artificial magnetic conductor (RAMC) includes a frequency selective surface (FSS) having an effective sheet capacitance which is variable to control resonant frequency of the RAMC. In one embodiment, the RAMC further includes a conductive backplane structure and a spacer layer separating the conductive backplane structure and the FSS. The spacer layer includes conductive vias extending between the conductive backplane structure and the FSS, and voltage variable capacitive circuit elements coupled with the FSS and responsive to bias voltages applied on one or more bias signal lines routed through the conductive backplane structure and the conductive vias.

Abstract: A new class of electronic systems, wherein microelectronic semiconductor integrated circuit devices are integrated on a common substrate with molecular electronic devices.

Abstract: The present invention relates to ionic electrodes, particularly microelectrodes and electrode arrays, and also relates to fabrication methods for such electrodes. In particular, the present invention relates to planar polymer electrodes for making patch clamp measurements of ionic currents through biological membranes, such as the plasma membranes of living cells. The electrodes of the present invention are useful for measuring individual and multisite cell membrane currents and voltages, as well as in high-throughput screening procedures.

Abstract: Molecular scale electronic devices are disclosed. Such devices include at least two conductive contacts, and a conductive path bridging the contacts. The conductive path is able to be written into a perturbed state by a voltage pulse, which can be of high or low conductivity, relative to an initial state. The conductive path comprises organic molecules including at least one electron-withdrawing group. Room temperature negative differential resistance is exhibited by the devices.

Abstract: The present invention relates to ionic electrodes, particularly microelectrodes and electrode arrays, and also relates to fabrication methods for such electrodes. In particular, the present invention relates to planar polymer electrodes for making patch clamp measurements of ionic currents through biological membranes, such as the plasma membranes of living cells. The electrodes of the present invention are useful for measuring individual and multisite cell membrane currents and voltages, as well as in high-throughput screening procedures.

Abstract: The present invention relates to protein chips useful for the large-scale study of protein function where the chip contains densely packed reaction wells. The invention also relates to methods of using protein chips to assay simultaneously the presence, amount, and/or function of proteins present in a protein sample or on one protein chip, or to assay the presence, relative specificity, and binding affinity of each probe in a mixture of probes for each of the proteins on the chip. The invention also relates to methods of using the protein chips for high density and small volume chemical reactions. Also, the invention relates to polymers useful as protein chip substrates and methods of making protein chips. The invention further relates to compounds useful for the derivatization of protein chip substrates.

Abstract: A new class of electronic systems, wherein microelectronic semiconductor integrated circuit devices are integrated on a common substrate with molecular electronic devices.

Abstract: A new class of electronic systems, wherein microelectronic semiconductor integrated circuit devices are integrated on a common substrate with molecular electronic devices.