Overview
Personal Profile
In 2011, John Simon joined NLR to study novel crystalline substrates for growth of III-V nitride semiconductors for solid-state lighting applications. Since then he has been involved in various projects involving the growth of III-V semiconductor films and devices for solar applications. John helped develop the dynamic hydride vapor phase epitaxy (D-HVPE) system at NLR to grow low-cost III-V devices. Specific research interests include development of low-cost III-V solar cells, high-efficiency multijunction solar cells, III-V semiconductor epitaxy, and development of novel semiconductor devices.
John received his doctorate in electrical engineering from the University of Notre Dame, in Indiana, in 2009 where he studied novel approaches to utilize the polarization fields in III-V nitride semiconductors for improved electronic device performance. He then had a postdoctoral appointment at Yale University where he studied metamorphic buffers for high-efficiency III-V solar cells.
Education/Academic Qualification
PhD, Electrical Engineering, University of Notre Dame
Master, Electrical Engineering, University of Notre Dame
Bachelor, Electrical Engineering, University of Notre Dame
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Collaborations and Top Research Areas From the Past 5 Years
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Growth of Semiconductor Materials by Hydride Vapor Phase Epitaxy Using an External Aluminum Chloride Generator
Metaferia, W. (Inventor), Schulte, K. (Inventor), Ptak, A. (Inventor) & Simon, J. (Inventor), 2026, National Renewable Energy Laboratory (NREL), Patent No. 12,540,417 B2, 3 Feb 2026Research output: Patent
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A Path to III-V Photovoltaic Cost Reduction Combining GaAs (211) Spalling with Halide Vapor Phase Epitaxy
Schulte, K., Dumont, M., Braun, A., Yoo, N., Packard, C., Simon, J. & Ptak, A., 2025, 20 p.Research output: NLR › Presentation
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Halide Vapor Phase Epitaxy of Ge from an Elemental Source
da Costa, E., Goh, M., Schulte, K., Young, M., Simon, J. & Ptak, A., 2025, In: Crystal Growth and Design. 25, 5, p. 1526-1532 7 p.Research output: Contribution to journal › Article › peer-review
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24% Single-Junction GaAs Solar Cell Grown Directly on Growth-Planarized Facets Using Hydride Vapor Phase Epitaxy: Article No. 2302035
Braun, A., Boyer, J., Schulte, K., McMahon, W., Simon, J., Perna, A., Packard, C. & Ptak, A., 2024, In: Advanced Energy Materials. 14, 3, 9 p.Research output: Contribution to journal › Article › peer-review
11 Scopus Citations -
Toward High-Throughput Deposition of III-V Materials and Devices Using Halide Vapor Phase Epitaxy: Paper No. 1288102
Ptak, A. J., Hassanaly, M., Udwary, K., Leach, J. H., Dodson, G., Splawn, H., Schulte, K. L. & Simon, J., 2024. 5 p.Research output: Contribution to conference › Paper