Abstract: A microfluidic cartridge can include at least one nucleic acid analysis portion. Each nucleic acid analysis portion can include a fluidic network being configured for micro-liter volumes or less, a sample input at the beginning of the fluidic network, a plurality of vent ports and fluidic channels in the fluidic network configured to effectuate hydrodynamic movement within the fluidic network, an extraction mixture reservoir in the fluidic network, a mixing chamber in the fluidic network, an amplification chamber in the fluidic network, and a separation channel in the fluidic network. A nucleic acid analyzer can be capable of performing nucleic acid analysis using the microfluidic cartridge. A nucleic acid analysis method can be performed using the microfluidic cartridge.

Abstract: Methods and systems for automatically matching energy transactions between two or more counterparties. One embodiment provides receiving, with a server, first transaction type data from a first counterparty involved in an energy transaction. Embodiments can also provide establishing, with the server, a sequence of concatenated data fields based on the first transaction type data for a first data level. The sequence of concatenated data fields to a second transaction type data associated with a second counterparty involved in the energy transaction are compared. One or more variances between the sequence of concatenated data fields and the second transaction type data are identified. Additional information for a second data level from at least one counterparty involved in the energy transaction is requested to address the one or more variances.

Abstract: A microfluidic cartridge can include at least one nucleic acid analysis portion. Each nucleic acid analysis portion can include a fluidic network being configured for micro-liter volumes or less, a sample input at the beginning of the fluidic network, a plurality of vent ports and fluidic channels in the fluidic network configured to effectuate hydrodynamic movement within the fluidic network, an extraction mixture reservoir in the fluidic network, a mixing chamber in the fluidic network, an amplification chamber in the fluidic network, and a separation channel in the fluidic network. A nucleic acid analyzer can be capable of performing nucleic acid analysis using the microfluidic cartridge. A nucleic acid analysis method can be performed using the microfluidic cartridge.

Abstract: A DNA analyzer includes an interface for coupling a microfluidic chip to the DNA analyzer. The microfluidic chip includes a first separation channel for electrophoretic separation of DNA fragments in a first sample. Further, the DNA analyzer includes a first optical device. The first optical device includes an illuminating path and a detecting path. The illuminating path directs a first input light beam received from a light source to a first separation channel of the microfluidic chip. The first input light beam causes fluorescent labels attached on DNA fragments in the first separation channel to emit a first fluorescence light. The detecting path collects and directs the first fluorescent light to a first plurality of optical fibers. Further, the DNA analyzer includes a spectrometer configured to receive the first fluorescent light from the plurality of optical fibers and detect fluorescent components in the first fluorescent light.

Abstract: Methods and systems for managing the settlement processes for bilateral traded energy products in the wholesale energy industry including transaction selection, collaborative tie-out, invoicing, payment execution, dispute management, and credit management processes. One embodiment provides collaborative, on-line environments for performing tie-out activities, managing transaction disputes, processing invoices, making payments, managing credit exposure, and interactively communicating actions and comments. Embodiments can also provide automatic notification and alert sequences during the tie-out process, the invoicing process, the payment process, the disputed transaction process, and the credit management processor. The notifications and alerts can be provided publicly among counterparties as well as privately among users within a counterparty's organization.

Abstract: A DNA analyzer includes an interface for coupling a microfluidic chip to the DNA analyzer. The microfluidic chip includes a first separation channel for electrophoretic separation of DNA fragments in a first sample. Further, the DNA analyzer includes a first optical device. The first optical device includes an illuminating path and a detecting path. The illuminating path directs a first input light beam received from a light source to a first separation channel of the microfluidic chip. The first input light beam causes fluorescent labels attached on DNA fragments in the first separation channel to emit a first fluorescence light. The detecting path collects and directs the first fluorescent light to a first plurality of optical fibers. Further, the DNA analyzer includes a spectrometer configured to receive the first fluorescent light from the plurality of optical fibers and detect fluorescent components in the first fluorescent light.