Modern scintillator grids are essential to radiation detection systems that require high spatial resolution and fast response. However, current grid fabrication methods rely on hazardous chemical etching and produce inconsistent structures that limit performance, scalability, and safety. This capability addresses the limitations of current fabrication methods by eliminating hazardous chemical etching, improving uniformity, and enabling complex geometries at scale. Advantages Enables high-resolution grid fabrication from high-Z metals (e.g., Re, Au, Re/Ni) Avoids toxic and hazardous chemicals associated with traditional etching Supports scalable production of precision-aligned, high-Z scintillator arrays with low material loss Provides micron-level dimensional control and uniformity Compati
ENERGY, DEPARTMENT OF is seeking responses for research and development in the physical, engineering, and life sciences (except nanotechnology and biotechnology) with a set-aside for No Set Aside businesses in Columbus, OH. This set-aside designation means eligible businesses face reduced competition from larger firms.
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