Berea.eduarrow_forward
Academicsarrow_forward
Departments & Programsarrow_forward
Physicsarrow_forward
Faculty & Staffarrow_forward
Tyler Maxwell
Dr. Tyler Maxwell
Staff Scientist & Instructor of Physics|Physics
Dr. Tyler Maxwell
Contact
Office Location
MAC 124
Courses
  • PHY 130: Introduction to Engineering
  • PHY 485: Materials Physics
Bio

Tyler was raised in the foothills of the Appalachian Mountains and has a special connection to this region. He graduated from Berea College in 2013 with a degree in physics and immediately started graduate school at the University of Kentucky to pursue a PhD in Materials Science and Engineering. His work at the University of Kentucky was primarily on thin film research and high temperature vacuum electron devices. After graduating with his PhD in 2018, he began working in the glass manufacturing industry at Corning, Inc. based in Harrodsburg, KY. Since 2021, Tyler has been working at Berea College as a Staff Scientist where he regularly teaching PHY 130 (Introduction to Engineering), supervises the physics shop and shop technician, and collaborates with faculty to upkeep scientific instrumentation and design/build prototypes for education or research purposes.

In his personal life, Tyler enjoys fishing the Cumberland and Big South Fork rivers, playing guitar, and spending time with his wonderful daughter and wife.  

Degrees
  • Ph.D., Materials Science and Engineering, University of Kentucky, 2018
  • B.A., Physics, Berea College, 2013
Publications & Works
    1. Bai, H., Maxwell, T.L., Kordesch, M. E., Balk, T.J. (2023). ”Physical Vapor Deposition and Thermally Induced Faceting of Tungsten Nanoparticles.” Materials Characterization 198, 112724.

    2. Maxwell, T.L., Balk, T.J. (2019). ”Understanding the Time-Dependent Mechanical Behavior of Bimodal Nanoporous Si-Mg Films via Nanoindentation.” Global Challenges, 3, 1800100.

    3. Kosmidou, M., Detisch, M., Maxwell, T.L., Balk, T.J. (2019) ”Vacuum Thermal Dealloying of Magnesium-based Alloys for Fabrication of Nanoporous Refractory Metals.” MRS Communications 9(1), 144-149.

    4. Liu, X., Qunfei, Z., Maxwell, T.L., Vancil, B.K., Beck, M.J., Balk, T.J. (2019). ”Scandate Cathode Surface Characterization: Emission Testing, Elemental Analysis and Morphological Evaluation.” Materials Characterization 148, 188-200.

    5. Qunfei, Z., Liu, X., Maxwell, T.L., Vancil, B.K., Balk, T.J., Beck, M.J. (2018). “BaxScyOz on W (001), (110), and (112) in Scandate Cathodes: Connecting to Experiment via μO and Equilibrium Crystal Shape.” Applied Surface Science 458, 827-838.

    6. Maxwell, T.L., Liu, X., Qunfei, Z., Vancil, B.K., Beck, M.J., Balk, T.J. (2018). “Scandate Cathode Work Function Measurements at Elevated Temperature.” IEEE International Vacuum Electronics Conference, 229-230.

    7. Maxwell, T.L., Balk, T.J. (2017). “The Fabrication and Characterization of Bimodal Nanoporous Si with Retained Mg through Dealloying.” Advanced Engineering Materials 20, 1700519.

    8. Chang-Eun, K., Rahimi, R.M., Maxwell, T.L., Balk, T.J., Bahr, D.F. (2017).“Age-hardening in a two component immiscible nanolaminate metal system.” Scripta Materialia 136, 33-36.