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hardware. Extensive experimental experience is essential. The scientist will join a DOE funded project that explores the use of AI and autonomous techniques for materials discovery. The project involves
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photonic platforms for hybrid quantum systems. The role offers a unique opportunity to engage in advanced materials synthesis, nanofabrication, and multimodal characterization using Argonne’s world-class
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. Working within the Center for Nanoscale Materials (CNM), the successful candidate will leverage state-of-the-art functional and dynamic TEM capabilities to lead experimental research on defect species
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The Materials Science Division at Argonne National Laboratory seeks to make a postdoctoral appointment for research in the area of thin films of quantum materials for microelectronics. The work will
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oxides from molten salts, evaluate the purity and morphology of the products, and develop underlying understanding of the reaction kinetics and mechanisms behind these processes. As a part of this team
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-accelerator applications. This work supports AWA’s mission to enable next-generation, energy-frontier particle accelerators. The AWA portfolio spans beam-driven wakefield acceleration, generation of bright
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The Energy Systems and Infrastructure Assessment (ESIA) division provides the rationale for decision makers to improve energy efficiency. We develop and use analytic tools to help the U.S. achieve
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agents for X-ray spectroscopy by integrating large language models (LLMs) with physics-aware spectroscopy workflows. The researcher will work closely with a multidisciplinary team of X-ray physicists and
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are for two years, with the possibility of one additional year contingent upon funding and performance. Applications received by 28 November 2025 will receive our fullest consideration. The Theory Group has
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operando characterization using the Advanced Photon Source (APS). This work will support critical material recovery and battery recycling initiatives. The successful candidate will help drive next-generation