Spero Introducing the Industry's First Laser-based Infrared Microscopy Platform It's finally here. A breakingrough approach to infrared microscopy that opens a whole of research possibilities. SperoTM, by Daylight Solutions, is powered by proven Quantum Cascade Laser (QCL) technonogy and is designed specifically for mid-infrared spectral imaging analysis of biomedical and matrials research samples. Learn how you can benefit from: ● Unparalleled Visibility Ultra-bright, tunable laser source offers high-resolution with a wide field of view and a novelchemical imaging technique that has not been previously abailable. ● Instantaneous Results in Live Mode Produces hyperspectral data cubes in minutes and also supports live discrete frequency imaging, eliminating standard workflow steps to qcauire data. ● Small Resource Footprint Not only is the microscope small enough to sit on a destop, it's also easy to use and features an uncooled focal plame array. Infrared Microscopy Will Never be the Same. SperoTM was designed from the ground up to provide a fully integrated mid-infrared hyperspectral imaging platform based on Daylight Solutions' industry-leading Quantum Cascade Laser technology. Spero provides high-resolution, full-frame chemical imaging capabilities that are simply not possible with existing instruments. ● Designed specifically for mid-infrared spectral imaging analysis of biomedical and materials research samples ● High-brightness tunable laser source ● Spectral coverage across the entire mid-infrared "fingerprint region" ● Rapid acquisition of full spectrum hyperspectral datacubes ● 2 infrared objectives and 1 visible objective ● Transmission and reflection modes ● Large format uncooled focal plane array ● Real-time discrete frequency IR imaging at video frame rates ● Fully automated stage ● Instrument control and data display via Ethernet to PC ● Small instrument footprint
High-resolution, wide-field IR image illuminated at 1555 cm-1 demonstrating diffraction-limited resolution below 5 μm and a pixel resolution of 1.4 μm.
600 μm tissue core. Integrated absorbance from 900 cm-1 to 1800 cm-1.