AI Article Synopsis
- High-resolution imaging with enhanced compositional and chemical sensitivity is essential for diverse scientific fields, but traditional synchrotron X-ray imaging faces challenges in detection sensitivity, resolution, and throughput.
- A new single-pixel X-ray imaging method utilizing structured illumination and generative image reconstruction has been developed, allowing for nanoscale resolution without the need for complex focusing or scanning techniques.
- This innovative approach successfully demonstrated the ability to map compositional variations in battery materials, offering significant potential for research in biology, materials science, and environmental studies, particularly for samples sensitive to radiation.
Article Abstract
High-resolution imaging with compositional and chemical sensitivity is crucial for a wide range of scientific and engineering disciplines. Although synchrotron X-ray imaging through spectromicroscopy has been tremendously successful and broadly applied, it encounters challenges in achieving enhanced detection sensitivity, satisfactory spatial resolution, and high experimental throughput simultaneously. In this work, based on structured illumination, we develop a single-pixel X-ray imaging approach coupled with a generative image reconstruction model for mapping the compositional heterogeneity with nanoscale resolvability. This method integrates a full-field transmission X-ray microscope with an X-ray fluorescence detector and eliminates the need for nanoscale X-ray focusing and raster scanning. We experimentally demonstrate the effectiveness of our approach by imaging a battery sample composed of mixed cathode materials and successfully retrieving the compositional variations of the imaged cathode particles. Bridging the gap between structural and chemical characterizations using X-rays, this technique opens up vast opportunities in the fields of biology, environmental, and materials science, especially for radiation-sensitive samples.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10710092 | PMC |
| http://dx.doi.org/10.1073/pnas.2314542120 | DOI Listing |
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