Illuminating Discovery
Nanoparticles with a Global Impact
What could you discover; what questions could you answer if you could observe biological activity inside of live cells in real time, in color, at a molecular level?
At Scintillation Nanotechnologies, we’re working to revolutionize the sensitivity, selectivity, and temporal and spatial resolution of chemical and biological assays. We are dedicated to developing multiplexed nanoscale radioisotope detectors that enable breakthrough discoveries in biological, chemical, and environmental systems. Our team of expert, multidisciplinary researchers have devoted their careers to the shared belief that high fidelity measurements are the key to transformational insights that impact society.
Our vision is to bring previously unheard-of measurement capabilities to radioisotope detection, enabling researchers across the full range of scientific endeavors to ask and answer previously impossible research questions.
If you have a challenging measurement application, or if you share our vision of transformative discoveries through high fidelity chemical characterization, please schedule a call or meeting to see how our products can help you achieve your research goals.
Technology Platform
Our proprietary radioisotope responsive nanoparticles were specifically developed to overcome the shortcomings of existing radioisotope detection products. nanoSCINTTM and nanoSPATM products present the potential for continuous, high resolution, multicolor measurements in live cells. nanoSCINTTM and nanoSPATM can be used with existing instrumentation, lowering barriers to adoption in established research while enabling entirely new measurements, applications, and research insights.
nanoSCINTTM
Our base platform scintillating nanoparticle radioisotope detector for use in proximity assays in aqueous solutions.
nanoSCINTTM is a consumable, IP-protected nanoparticle platform that can be used directly in aqueous solution for direct detection of radioisotope labeled materials. Analogous to, but more versatile than, scintillation cocktail, this novel nanomaterial enables measurements in aqueous environments with high-sensitivity and marked reduction in waste generation.
nanoSPATM
A family of products produced by chemical modification of nanoSCINTTM to provide molecularly specific detection of radioisotope labeled species with high temporal and spatial resolution. Analagous to existing scintillation proximity materials, but with the added advantage of small size, enhanced dispersibility and potentially multiplexed detection.