Noah Schorr

Chemist

Author profile picture

Chemist

nschorr@sandia.gov

(505) 844-6252

Biography

Noah B. Schorr is a Postdoctoral Appointee at Sandia National Laboratories in the Photovoltaics & Materials Tech organization. He received his B.S. degree in Chemistry from Western Washington University in 2015 and his Ph.D. degree in Chemistry from the University of Illinois at Urbana-Champaign in 2019. His research interests include developing energy storage materials, application of fundamental electrochemical principles, and instrumental analysis of battery components.

Research Interests

  • Developing energy storage materials, testing new formulations or novel compounds in battery systems
  • Designing experiments focused on the application of fundamental electrochemical principles towards understanding behavior of battery electrodes
  • Combining a suite of instrumental techniques to analyze energy storage mechanisms

Education

  • Ph.D. in Chemistry, University of Illinois at Urbana-Champaign (Champaign-Urbana, IL), 2019
  • B.S. in Chemistry, Western Washington University (Bellingham, WA), 2015

Google Scholar

Noah Schorr, Ph.D.

Publications

  • Schorr, N.B., Taphouse, J.H., Harbour, T., Nemer, M., Papenguth, H.W., Reyes, S., & Reyes, S. (2023). Analytical Exploration of Iron Disulfide Performance in Molten Salt Batteries [Conference Presenation]. https://doi.org/10.2172/2430907 Publication ID: 127112
  • Schorr, N.B., Arnot, D., Kolesnichenko, I.V., Lambert, T.N., & Lambert, T.N. (2022). Rechargeable Alkaline Zn?Cu Batteries Enabled by Carbon Coated Cu/Bi Particles [Conference Poster]. https://doi.org/10.2172/2005242 Publication ID: 118428
  • Wygant, B.R., Schorr, N.B., Kolesnichenko, I.V., Lambert, T.N., & Lambert, T.N. (2022). Microwave Synthesis of FeF2@C Composites as Conversion Cathodes for Li Metal Batteries [Conference Presenation]. https://doi.org/10.2172/2004430 Publication ID: 116912
  • Wygant, B.R., Kolesnichenko, I.V., Schorr, N.B., Harrison, K.L., Lambert, T.N., & Lambert, T.N. (2022). Lithiation/De-Lithiation of a Unique C-S Species in Amorphous FeSx/C Cathodes for Li Batteries [Conference Presenation]. https://doi.org/10.2172/2003264 Publication ID: 112436
  • Lambert, T.N., Schorr, N.B., Wygant, B.R., Habing, R., Wright, C.N., Bruck, A., Kim, M., Goulart, J., Gallaway, J., & Gallaway, J. (2022). The Discovery and Development of Rechargeable Zn/CuO Batteries [Conference Presenation]. https://doi.org/10.2172/2003332 Publication ID: 112700
  • Sayahpour, B., Hirsh, H., Bai, S., Schorr, N.B., Lambert, T.N., Mayer, M., Bao, W., Cheng, D., Zhang, M., Leung, K., Harrison, K.L., Li, W., Meng, Y.S., & Meng, Y.S. (2021). Revisiting Discharge Mechanism of CFx as a High Energy Density Cathode Material for Lithium Primary Battery. Advanced Energy Materials, 12(5). https://doi.org/10.1002/aenm.202103196 Publication ID: 106400
  • Schorr, N.B., Kolesnichenko, I.V., Merrill, L.C., Wygant, B.R., Harrison, K.L., Lambert, T.N., & Lambert, T.N. (2021). High Capacity Retention in Lithium Batteries Utilizing Nano Iron Sulfide Particles [Conference Presenation]. https://doi.org/10.2172/1900097 Publication ID: 76912
  • Schorr, N.B., Arnot, D., Bruck, A., Gallaway, J., Lambert, T.N., & Lambert, T.N. (2021). Copper Oxide Cathodes for Rechargeable Alkaline Zinc Batteries [Conference Presenation]. https://doi.org/10.2172/1900347 Publication ID: 76975
  • Schorr, N.B., Arnot, D., Bruck, A.M., Habing, R., Gallaway, J.W., Lambert, T.N., & Lambert, T.N. (2021). Development of Copper Oxide Based Cathodes for Rechargeable Zinc Alkaline Batteries [Conference Poster]. https://doi.org/10.2172/1892455 Publication ID: 76282
  • Cho, S., Yadav, G., Weiner, M., Upreti, A., Huang, J., Wie, X., Yakobov, R., Lambert, T.N., Arnot, D., Bell, N.S., Schorr, N.B., Hawkins, B., Turney, D., Nyce, M., Booth, M., Banerjee, S., & Banerjee, S. (2021). Hydrogel Electrolyte Application to Zn|MnO2 Rechargeable Batteries [Presentation]. https://www.osti.gov/biblio/1897028 Publication ID: 76396
  • Schorr, N.B., Arnot, D.J., Bruck, A.M., Duay, J., Kelly, M., Habing, R., Ricketts, L.S., Vigil, J.A., Gallaway, J.W., Lambert, T.N., & Lambert, T.N. (2021). Rechargeable Alkaline Zinc/Copper Oxide Batteries. ACS Applied Energy Materials, 4(7), pp. 7073-7082. https://doi.org/10.1021/acsaem.1c01133 Publication ID: 76265
  • Lambert, T.N., Schorr, N.B., Arnot, D.J., Lim, M., Bell, N.S., Bruck, A.M., Duay, J., Kelly, M., Habing, R., Ricketts, L.S., Vigil, J.A., Gallaway, J., Kolesnichenko, I.V., Budy, S.M., Ruiz, E.I., Yadav, G., Weiner, M., Upreti, A., Huang, J., … Chalamala, B.R. (2021). Advances in Alkaline Conversion Batteries for Grid Storage Applications [Conference Presenation]. https://doi.org/10.2172/1865569 Publication ID: 78231
  • Lambert, T.N., Lim, M.B., Kolesnichenko, I.V., Arnot, D.J., Schorr, N.B., Habing, C., Ricketts, D., Ruiz, E.I., Chalamala, B.R., & Chalamala, B.R. (2020). Development of Zn/MnO2 Alkaline Batteries for Grid Storage [Conference Presenation]. https://doi.org/10.2172/1831361 Publication ID: 71753
  • Upreti, A., Weiner, M., Yadav, G.G., Huang, J., Yakobov, R., Arnot, D.J., Schorr, N.B., Bell, N.S., Lambert, T.N., Banerjee, S., & Banerjee, S. (2020). Functional hydrogels with enhanced physiochemical properties for highly energy dense rechargeable Zn-MnO2 batteries [Presentation]. https://www.osti.gov/biblio/1821566 Publication ID: 74926
Showing 10 of 14 publications.