Continuing our innovation momentum, Leiden Measurement Technology is proud to announce that NASA has selected us for two new 2019 Small Business Innovative Research (SBIR) Phase 1 contracts to design and build new instruments for chemical extraction and life detection in challenging environments.
LMT has been selected for 2019 NASA SBIR Phase II contract to continue developing a small automated microfluidics instrument that can separate different classes of (organic) molecules in water samples. The device is designed to help explore extraterrestrial ocean worlds like Europa and Enceladus. This project is the next phase of LMT's IN-situ Solid Phase Extraction of Chemical Targets (INSPECT) instrument.
LMT has been selected as a key partner on a NASA-sponsored platform to enable unprecedented autonomous life detection in habitable ocean environments concealed beneath thick ice crusts. The THOR (Thermal High-voltage Ocean-penetrator Research) project is being led by Stone Aerospace. The project is developing a robust cryobot capable of rapid, deep subglacial access for environmental characterization and life detection. THOR aims to be the first cryobot to descend into a subglacial lake, thus enabling unique investigations of the lake's geomicrobiology.
LMT is proud to announce another NASA SBIR Phase I contract, awarded to design the IN-situ Solid Phase Extraction of Chemical Targets (INSPECT) instrument, a versatile and automated sample processing module that can couple to several analytical instruments via a microfluidic platform.
Following a successful NASA SBIR Phase I contract, LMT is proud to announce that NASA's SBIR program has awarded it a Phase II contract to continue the design and building of the Wholly-integrated Optofluidic Laser-induced Fluorescence Electrophoresis Chip (WOLFEChip) System, a microchip capillary electrophoresis (MCE) system using a miniaturized optofluidic approach for packaging all critical optical elements necessary for laser-induced fluorescence (LIF) on-chip.
Building on its continuing innovation on life detection using microfluidic devices, LMT is partnering with the NASA Ames Research Center (ARC) on its LIfE (Luminescence Imager for Exploration) project. LIfE will mature a microfluidic-based fluorescence imaging microscope for the detection and study of biomarkers and structural indicators of microbial life in icy world environments.
Continuing its track record of innovation, LMT is proud to announce that it has been selected for a 2017 Phase I SBIR award. In this Small Business Innovative Research (SBIR) effort, Leiden Measurement Technology LLC (LMT) will design and build the Wholly-integrated Optofluidic Laser-induced Fluorescence Electrophoresis Chip (WOLFEChip), a microchip capillary electrophoresis (MCE) system using a miniaturized optofluidic approach for packaging all optical elements necessary for laser-induced fluorescence (LIF) on-chip.
Leiden Measurement Technology is partnering with Stone Aerospace on its new ARCHIMEDES (A Really Cool High Impact Method for Exploring Down into Europan Subsurface) project, an entirely novel ice-penetrating technology that uses laser light carried by an optical fiber tether. Sponsored by NASA and led by Stone Aerospace, the ARCHIMEDES project aims to provide sub-surface access for a Europa lander and to co-transport fiber instruments for the detection of biomarkers in the ice.