Melissa Meyerson

Postdoctoral Researcher

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Postdoctoral Researcher

mlmeyer@sandia.gov

(505) 844-9954

Biography

Melissa Meyerson is a materials scientist and chemist at Sandia National Laboratories. She completed her bachelor’s degree in chemistry at the University of Maryland, College Park and her PhD in chemistry at the University of Texas at Austin where she researched electrode materials to improve the energy density of batteries. Her research interests include materials development and characterization with a focus on materials for energy storage.

Research Interests

  • Materials for energy storage, especially anode materials for lithium batteries
  • Electrochemical and spectroscopic characterization of materials

Education

  • Ph.D. in Chemistry, University of Texas at Austin, 2020
  • B.S. in Chemistry, University of Maryland, 2014

Google Scholar

Melissa Meyerson, Ph.D.

Publications

  • Root, H.D., Hurlock, M., Rimsza, J.M., Percival, S.J., Addison, B.M., Goodman-Miller, S.A., Wall, S.R., Wygant, M.L., & Nenoff, T.M. (2025). Molecular Scale Tuning of Covalent Organic Frameworks for Enhanced Properties. https://doi.org/10.2172/2589586 Publication ID: 160496
  • Sikma, R.E., Reyes, R.A., Richards, D., Kotula, P.G., Wygant, M.L., Percival, S.J., & Sava Gallis, D.F. (2024). Monodisperse Cu Nanoparticles Supported on a Versatile Metal-Organic Framework for Electrocatalytic Reduction of CO2. ACS Applied Nano Materials, 7(23), pp. 26629-26635. https://doi.org/10.1021/acsanm.4c05508 Publication ID: 155628
  • Sava Gallis, D.F., Sikma, R.E., Reyes, R.A., Wygant, M.L., Kotula, P.G., & Vogel, D.J. (2024). High-Entropy Metal-Organic Frameworks (HEMOFs): A New Frontier in Materials Design for CO2 Utilization. Advanced Materials, 36(45). https://doi.org/10.1002/adma.202407435 Publication ID: 149212
  • Rummel, B.D., Wygant, M.L., Glaser, C.E., & Klesko, J.P. (2024). A Scalable & Non-Destructive Characterization Strategy to Study Semiconductor/Dielectric Interfaces and Predict Wafer-Level Device Performance. https://doi.org/10.2172/2480157 Publication ID: 155384
  • McGarry, M.P., Gilbert, S.J., Yates, L., Wygant, M.L., Kotula, P.G., Bays, N.R., Sharma, P.A., Flicker, J.D., Siegal, M.P., & Biedermann, L.B. (2024). Interfacial defect reduction enhances universal power law response in Mo-SiNx granular metals. Journal of Applied Physics, 136(5). https://doi.org/10.1063/5.0211080 Publication ID: 125020
  • Root, H.D., Hurlock, M., Addison, B.M., Bays, N.R., Willneff, E.A., & Wygant, M.L. (2024). Molecular Tuning of Covalent Organic Frameworks for Tailored CO2 Adsorption [Conference Presentation]. https://doi.org/10.2172/2585739 Publication ID: 157776
  • Glaser, C.E., Rummel, B.D., Klesko, J.P., Wygant, M.L., Dickens, P.T., Binder, A.T., Kaplar, R.J., Feezell, D., & Steinfeldt, J.A. (2024). Reduction of Defects at or near ALD-Al2O3/GaN Interfaces for Improved Electrical Performance of GaN Power Devices [Conference Presentation]. https://doi.org/10.2172/2585828 Publication ID: 158076
  • Small, L.J., Urena, M.E., Wygant, M.L., Fujimoto, C.H., MacChi, S., Staiger, C.L., & Anderson, T.M. (2024). Flow Battery Materials Research at Sandia [Conference Presentation]. https://doi.org/10.2172/2585859 Publication ID: 158184
  • Urena, M.E., Wygant, M.L., & Small, L.J. (2024). Mediated Lithium-Sulfur Flow Batteries [Conference Poster]. https://doi.org/10.2172/2586029 Publication ID: 158784
  • Percival, S.J., Richards, D., Leverant, C.J., Wygant, M.L., Fritzsching, K., Rempe, S.B., Vanegas, J.M., & Spoerke, E. (2024). Effect of the EMIM Cation on the CO2 Reduction Reaction on Gold: For CO2 Capture and Conversion Membranes [Poster]. https://doi.org/10.2172/2586329 Publication ID: 159780
  • Richards, D., Percival, S.J., Leverant, C.J., Wygant, M.L., Fritzsching, K., Spoerke, E., Rempe, S.B., & Vanegas, J.M. (2024). Effect of the EMIM Cation on the CO2 Reduction Reaction on Gold [Conference Poster]. https://doi.org/10.2172/2585134 Publication ID: 152612
  • Martinez, W.M., Anderson, E.M., Wood, M.G., Friedmann, T.A., Arterburn, S.C., Reyna, R., Gutierrez, J.E., Harris, C.A., Kotula, P.G., Cummings, D.P., Bahr, M., Patel, V.J., Muhowski, A., Hawkins, S.D., Long, C., Klem, J.F., Shank, J., & Wygant, M.L. (2024). Gasb-to-Si Direct Wafer Bonding and Thermal Budget Considerations for Photonic Applications [Conference Presentation]. https://doi.org/10.2172/2585137 Publication ID: 152624
  • Wahby, W., Kalaswad, M., Finnegan, P.S., Hummel, G., Wygant, M.L., Marinella, M., Adams, D.P., Jacobs-Gedrim, R.B., & King, M.P. (2024). Radiation Hard Ovshinsky Switches in the SiTe Material System [Conference Presentation]. https://doi.org/10.2172/2563923 Publication ID: 151016
  • Gilbert, S.J., Biedermann, L.B., Siegal, M.P., McGarry, M.P., Wygant, M.L., Kotula, P.G., Sharma, P.A., & Yates, L. (2024). Nanostructured Materials to Negate Nanosecond Voltage Spikes [Conference Presentation]. https://doi.org/10.2172/2585065 Publication ID: 152460
  • Sikma, R.E., Reyes, R.A., Wygant, M.L., Kotula, P.G., & Sava Gallis, D.F. (2024). Incorporating Active Cu Sites on Rare-Earth Metal-Organic Frameworks for Catalytic CO2 Conversion [Poster]. https://doi.org/10.2172/2540296 Publication ID: 149740
Showing 10 of 15 publications.