Argonne National Laboratory

Ashley Bielinski

Assistant Materials Scientist

Biography

Awards

  • Physical Sciences and Engineering Early Investigator Named Award, Argonne National Laboratory, 2022
  • Maria Goeppert Mayer Postdoctoral Fellowship, Argonne National Laboratory, 2019 - 2022
  • NSF Graduate Research Fellowship, 2015-2018

Education 

  • PhD and MS in Mechanical Engineering, University of Michigan, 2019
  • BME Mechanical Engineering, University of Minnesota, Twin Cities, 2014

    Select Publications

    • Bielinski, A. R.; Kamphaus, E. P.; Cheng, L.; Martinson, A. B. F. Resolving the Heat Generated from ZrO2 Atomic Layer Deposition Surface Reactions. Angewandte Chemie International Edition 2023, e202301843.
    • Bielinski, A.R., Kamphaus, E.P., Cheng, L. and Martinson, A.B.F., Resolving the Heat of Trimethylaluminum and Water Atomic Layer Deposition Half-Reactions. Journal of the American Chemical Society 2022 , 144 (33), 15203-15210.
    • Bielinski, A. R.; Sprague-Klein, E. A.; Phelan, B. T.; Martinson, A. B. F., Pyroelectric Heat Detection for Calibrated Measurement of Atomic Layer Deposition Reaction Heat. Chemistry of Materials 2021, 33 (15), 6176-6185.
    • Bielinski, A. R.; Gayle, A. J.; Lee, S.; Dasgupta, N. P., Geometric Optimization of Bismuth Vanadate Core–Shell Nanowire Photoanodes using Atomic Layer Deposition. ACS Applied Materials & Interfaces 2021 13 (44), 52063-52072.
    • Bielinski, A. R.; Lee, S.; Brancho, J. J.; Esarey, S. L.; Gayle, A. J.; Kazyak, E.; Sun, K.; Bartlett, B. M.; Dasgupta, N. P., Atomic Layer Deposition of Bismuth Vanadate Core–Shell Nanowire Photoanodes. Chemistry of Materials 2019, 31 (9), 3221-3227.
    • Bielinski, A. R.; Boban, M.; He, Y.; Kazyak, E.; Lee, D. H.; Wang, C.; Tuteja, A.; Dasgupta, N. P., Rational Design of Hyperbranched Nanowire Systems for Tunable Superomniphobic Surfaces Enabled by Atomic Layer Deposition. ACS Nano 2017, 11 (1), 478-489.
    • Bielinski, A. R.; Kazyak, E.; Schlepütz, C. M.; Jung, H. J.; Wood, K. N.; Dasgupta, N. P., Hierarchical ZnO Nanowire Growth with Tunable Orientations on Versatile Substrates Using Atomic Layer Deposition Seeding. Chemistry of Materials 2015, 27 (13), 4799-4807.