Corinne Packard
Colorado School of Mines
H-index: 22
North America-United States
Top articles of Corinne Packard
Title | Journal | Author(s) | Publication Date |
---|---|---|---|
24% Single‐Junction GaAs Solar Cell Grown Directly on Growth‐Planarized Facets Using Hydride Vapor Phase Epitaxy | Advanced Energy Materials | Anna K Braun Jacob T Boyer Kevin L Schulte William E McMahon John Simon | 2024/1 |
Revealing the Pressure-Induced Phase Transformation of Xenotime TbPO4 via In Situ Photoluminescence Spectroscopy | The Journal of Physical Chemistry Letters | Jai Sharma Brandon Reynolds Matthew J Crane Corinne E Packard | 2024/4/15 |
In Situ Smoothing of Facets on Spalled GaAs (100) Substrates during OMVPE Growth of III–V Epilayers, Solar Cells, and Other Devices: The Impact of Surface Impurities/Dopants | William E McMahon Anna K Braun Allison N Perna Pablo G Coll Kevin L Schulte | 2023/6/11 | |
Uncovering the Effects of Non-Hydrostaticity on Pressure-Induced Phase Transformation in Xenotime-Structured TbPO4 | Solids | Jai Sharma Corinne E Packard | 2024/2/16 |
Linking flexural strength and strength‐limiting flaws in additively manufactured alumina with print parameter variations | Journal of the American Ceramic Society | Sarah Boardman Corinne E Packard | 2024/2 |
Analysis of Crystalline Defects Caused by Growth on Partially Planarized Spalled (100) GaAs Substrates | Crystals | Jacob T Boyer Anna K Braun Kevin L Schulte John Simon Steven W Johnston | 2023/4/15 |
Light-trapping structures fabricated in situ for ultrathin III-V solar cells | Journal of Applied Physics | Allison N Perna Kevin L Schulte John Simon Anna K Braun David R Diercks | 2023/10/7 |
Metallic glass coating material | Apurva Mehta Suchismita Sarker Corinne E Packard Rachel Schoeppner | 2023/11/28 | |
Phase Transformation Pathway of DyPO4 to 21.5 GPa | Crystals | Jai Sharma Henry Q Afful Corinne E Packard | 2023/2/1 |
Strength of additively manufactured alumina with different debinding and sintering heat treatments | Journal of the American Ceramic Society | Sarah Boardman Corinne E Packard | 2023/7 |
Design of Planarizing Growth Conditions on Unpolished and Faceted (100)-Oriented GaAs Substrates Using Hydride Vapor Phase Epitaxy | Crystal Growth & Design | Anna K Braun Kevin L Schulte John Simon Aaron J Ptak Corinne E Packard | 2023/1/23 |
Improving Performance of III-V Solar Cells Grown on Spalled Germanium with Ex Situ Substrate Planarization | John S Mangum Anna K Braun Allison Perna John F Geisz Aaron J Ptak | 2023/6/11 | |
Morphology Control of Growth by Hydride Vapor Phase Epitaxy on Faceted GaAs Substrates Produced by Controlled Spalling for Low Cost III-V Devices | Anna K Braun Jacob T Boyer William E McMahon Kevin L Schulte John Simon | 2023/6/8 | |
(110)-Oriented GaAs Devices and Spalling as a Platform for Low-Cost III-V Photovoltaics | IEEE Journal of Photovoltaics | Wondwosen Metaferia Jason Chenenko Corinne E Packard Evan WK Wong Aaron J Ptak | 2022/4/19 |
High‐Efficiency Solar Cells Grown on Spalled Germanium for Substrate Reuse without Polishing | Advanced Energy Materials | John S Mangum Anthony D Rice Jie Chen Jason Chenenko Evan WK Wong | 2022/8 |
Discovering exceptionally hard and wear-resistant metallic glasses by combining machine-learning with high throughput experimentation | Applied Physics Reviews | Suchismita Sarker Robert Tang-Kong Rachel Schoeppner Logan Ward Naila Al Hasan | 2022/3/1 |
FACET SUPPRESSION OF GALLIUM ARSENIDE SPALLING USING NANOIMPRINT LITHOGRAPHY AND METHODS THEREOF | 2022/7/28 | ||
Controlled spalling of (100)-oriented GaAs with a nanoimprint lithography interlayer for thin-film layer transfer without facet formation | Thin Solid Films | Anna K Braun San Theingi William E McMahon Aaron J Ptak Corinne E Packard | 2022/1/31 |
Planarizing HVPE Growth on GaAs Substrates Produced by Controlled Spalling | Anna K Braun William E McMahon Allison N Perna Kevin L Schulte Corinne E Packard | 2022/6/5 | |
Materials fracture: a module developed for hands-on learning | Allison Perna Anna Braun Henry Afful Jai Sharma Corinne E Packard | 2022 |