Bryan Huey
Professor & Department Head/Material Science and Engr
Storrs Mansfield
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Scholarly Contributions
261 Scholarly Contributions
Degradation of Bifacial PERC and Al-BSF Cell Minimodules with White and Clear Encapsulant Combinations in Modified Damp Heat
Research Type: Conference Proceedings
Defeating depolarizing fields with artificial flux closure in ultrathin ferroelectrics
Research Type: Journal Article
Declamped Piezoelectric Coefficients in Patterned 70/30 Lead Magnesium Niobate–Lead Titanate Thin Films
2017
Research Type: Journal Article
Correlations between adhesion hysteresis and friction at molecular scales.
2005
Research Type: Journal Article
Correlations between Polarization Switching Process and Local Ferroelectric Domain and Domain Boundary Structure
2012
Research Type: Poster/Presentation
Control of Switching and Piezoelectricity by Geometric Structuring
2017
Research Type: Poster/Presentation
Comparison of surface-treated and untreated orthodontic bands: evaluation of shear force and surface roughness.
1998
Research Type: Journal Article
Combined Atomic Force Microscopy and 3-D Optical Microscopy of Cells and Biomaterials
2011
Research Type: Poster/Presentation
Combined AFM and 3d Optical Microscopy of Cells and Biomaterials
2012
Research Type: Poster/Presentation
Chemically synthesized metal-oxide-metal segmented nanowires with high ferroelectric response.
2010
Research Type: Journal Article
Charge injection and decay of nanoscale dielectric films resolved via dynamic scanning probe microscopy
2021
Research Type: Journal Article
Characterization of front contact degradation in monocrystalline and multicrystalline silicon photovoltaic modules following damp heat exposure
2022
Research Type: Journal Article
Characterization of TiO2 Nanoparticles in Marine and Fresh Water
2012
Research Type: Poster/Presentation
Behavior of titanium dioxide nanoparticles in three aqueous media samples: Agglomeration and implications for benthic deposition.
2014
Research Type: Journal Article
Atomic Force Microscopy to Identify Dehydration Temperatures for Small Volumes of Active Pharmaceutical Ingredients
2020
Research Type: Journal Article