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reduction and other chemical transformations, and the radiolysis of non-aqueous media that are used in energy applications, e.g., ionic liquids and alkyl carbonates. The position will make heavy use
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transformations, quantum information science, microelectronics and energy storage. The research will involve the use of pulse radiolysis at the Chemistry Division’s 9 MeV Laser Electron Accelerator Facility (LEAF
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photon science. Proficiency in scientific programming for experimental control or data analysis. Ability to work independently in a laboratory setting and collaborate effectively in a team environment
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. Knowledge of inverse problems, image reconstruction, or signal processing. Experience with algorithm development for noisy, sparse, or large-scale datasets. Demonstrated ability to work collaboratively with
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. Research experience demonstrated through a record of publications in peer-reviewed journals Proven ability for disseminating research results by writing manuscripts and giving academic presentations Required
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Ability to work in a large international collaboration Hands-on problem-solving skills and clear and concise verbal and written communication skills Demonstrated track record of publication of research in
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experiments Experience with machine learning techniques and tools Ability to work in a large international collaboration Hands-on problem-solving skills and clear and concise verbal and written communication
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Knowledge, Skills, and Abilities: PhD in Chemistry, Physics, Biophysics, Biology, Biochemistry or Structural Biology. Proven ability to optimize peptide, protein or nucleic acid crystallization systems. Basic
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, including fitting and manipulation of large array-type data sets (using Python, Matlab or equivalent) Ability to communicate well, and work within a collaborative team environment Preferred Knowledge, Skills