Abstract: The invention is directed to devices that allow for simultaneous multiple biochip analysis. In particular, the devices are configured to hold multiple cartridges comprising biochips comprising arrays such as nucleic acid arrays, and allow for high throughput analysis of samples.

Abstract: The invention relates to the use of particles comprising binding ligands and electron transfer moieties (ETMs). Upon binding of a target analyte, a particle and a reporter composition are associated and transported to an electrode surface. The ETMs are then detected, allowing the presence or absence of the target analyte to be determined.

Abstract: The invention relates to the use of particles comprising binding ligands and electron transfer moieties (ETMs). Upon binding of a target analyte, a particle and a reporter composition are associated and transported to an electrode surface. The ETMs are then detected, allowing the presence or absence of the target analyte to be determined.

Abstract: The invention is directed to devices that allow for simultaneous multiple biochip analysis. In particular, the devices are configured to hold multiple cartridges comprising biochips comprising arrays such as nucleic acid arrays, and allow for high throughput analysis of samples.

Abstract: The present invention is directed to the detection of target analytes using electronic techniques, particularly AC techniques.

Abstract: The invention is directed to devices that allow for simultaneous multiple biochip analysis. In particular, the devices are configured to hold multiple cartridges comprising biochips comprising arrays such as nucleic acid arrays, and allow for high throughput analysis of samples.

Abstract: The invention relates to novel methods and compositions for the detection of analytes using the nuclear reorganization energy, ?, of an electron transfer process.

Abstract: The invention relates to novel methods and compositions for the detection of analytes using the nuclear reorganization energy, ?, of an electron transfer process.

Abstract: The invention relates to novel methods and compositions for the detection of analytes using the nuclear reorganization energy, ?, of an electron transfer process.

Abstract: The invention relates to novel methods and compositions for the detection of analytes using the nuclear reorganization energy, ?, of an electron transfer process.

Abstract: The present invention relates to the use of self-assembled monolayers with mixtures of conductive oligomers and insulators to detect target analytes.

Abstract: The invention relates to novel methods and compositions for the detection of analytes using the nuclear reorganization energy, ?, of an electron transfer process.

Abstract: The invention relates to nucleic acids covalently coupled to electrodes via conductive oligomers. More particularly, the invention is directed to the site-selective modification of nucleic acids with electron transfer moieties and electrodes to produce a new class of biomaterials, and to methods of making and using them.

Abstract: The invention relates to nucleic acids covalently coupled to electrodes via conductive oligomers. More particularly, the invention is directed to the site-selective modification of nucleic acids with electron transfer moieties and electrodes to produce a new class of biomaterials, and to methods of making and using them.

Abstract: A photodetector having sensitivity in both an infrared and an ultraviolet band is provided. The photodetector is formed on a single chip and is designed to be blind to solar or visible radiation. Structures disclosed allow fast and efficient detection of signals with high spatial and temporal resolution. Such sensors may be used for multi-pixel focal arrays and applied for fire detection applications, various space- and military-related applications and other applications.

Abstract: The invention relates to nucleic acids covalently coupled to electrodes via conductive oligomers. More particularly, the invention is directed to the site-selective modification of nucleic acids with electron transfer moieties and electrodes to produce a new class of biomaterials, and to methods of making and using them.

Abstract: The invention is directed to devices and methods that allow for simultaneous multiple biochip analysis. The method of analyzing the plurality of biochips includes inserting a first biochp into a first station of an analysis device, inserting a second biochip into a second station of the analysis device, wherein each of the first and second biochips include a substrate, the substrates including an array of detection electrodes, each electrode including a different capture binding ligand, a different target analyte, and a label, and a plurality of electrical contracts, detecting current as an indication of the presence of the labels on the first biochip, and detecting current as an indication of the presence of the labels on the first second biochip. The devices and method may be used with multiple cartridges comprising biochips comprising arrays, such as nucleic acid arrays, and allow for high throughput analysis of samples.

Abstract: The invention relates to novel methods and compositions for the detection of analytes using the nuclear reorganization energy, ?, of an electron transfer process.

Abstract: The invention is directed to devices that allow for simultaneous multiple biochip analysis. In particular, the devices are configured to hold multiple cartridges comprising biochips comprising arrays such as nucleic acid arrays, and allow for high throughput analysis of samples.

Abstract: The invention is directed to devices that allow for simultaneous multiple biochip analysis. In particular, the devices are configured to hold multiple cartridges comprising biochips comprising arrays such as nucleic acid arrays, and allow for high throughput analysis of samples.