J. Houston Dycus scite author profile

Quantitative agreement on an absolute scale is demonstrated between experiment and simulation for two-dimensional, atomic-resolution elemental mapping via energy dispersive X-ray spectroscopy. This requires all experimental parameters to be carefully characterized. The agreement is good, but some discrepancies remain. The most likely contributing factors are identified and discussed. Previous predictions that increasing the probe forming aperture helps to suppress the channelling enhancement in the average signal are confirmed experimentally. It is emphasized that simple column-by-column analysis requires a choice of sample thickness that compromises between being thick enough to yield a good signal-to-noise ratio while being thin enough that the overwhelming majority of the EDX signal derives from the column on which the probe is placed, despite strong electron scattering effects.

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6 kW/cm² UVC laser threshold in optically pumped lasers achieved by controlling point defect formation

Kirste

Guo

Dycus

et al. 2018

Appl. Phys. Express

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Optically pumped lasing from AlGaN/AlN multiple quantum wells grown on single-crystalline AlN substrates with lasing thresholds as low as 6 kW/cm2 is demonstrated via the reduction of unintentional point defects in the active region and waveguide, which reduces the non-radiative recombination by 2 orders of magnitude. A higher lasing threshold of 11 kW/cm2 is observed for AlGaN barriers, owing to the reduced localization of electrons and holes in the wells. It is shown that for electrically injected UVC laser diodes, AlGaN barriers are essential.

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Accurate Nanoscale Crystallography in Real-Space Using Scanning Transmission Electron Microscopy

et al. 2015

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Here, we report reproducible and accurate measurement of crystallographic parameters using scanning transmission electron microscopy. This is made possible by removing drift and residual scan distortion. We demonstrate real-space lattice parameter measurements with <0.1% error for complex-layered chalcogenides Bi2Te3, Bi2Se3, and a Bi2Te2.7Se0.3 nanostructured alloy. Pairing the technique with atomic resolution spectroscopy, we connect local structure with chemistry and bonding. Combining these results with density functional theory, we show that the incorporation of Se into Bi2Te3 causes charge redistribution that anomalously increases the van der Waals gap between building blocks of the layered structure. The results show that atomic resolution imaging with electrons can accurately and robustly quantify crystallography at the nanoscale.

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J. Houston Dycus

Thermoelectric generators for wearable body heat harvesting: Material and device concurrent optimization

Comparison of thermoelectric properties of nanostructured Mg₂Si, FeSi₂, SiGe, and nanocomposites of SiGe–Mg₂Si, SiGe–FeSi₂

Quantitative atomic resolution elemental mapping via absolute-scale energy dispersive X-ray spectroscopy

6 kW/cm² UVC laser threshold in optically pumped lasers achieved by controlling point defect formation

Accurate Nanoscale Crystallography in Real-Space Using Scanning Transmission Electron Microscopy

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J. Houston Dycus

Thermoelectric generators for wearable body heat harvesting: Material and device concurrent optimization

Comparison of thermoelectric properties of nanostructured Mg2Si, FeSi2, SiGe, and nanocomposites of SiGe–Mg2Si, SiGe–FeSi2

Quantitative atomic resolution elemental mapping via absolute-scale energy dispersive X-ray spectroscopy

6 kW/cm2 UVC laser threshold in optically pumped lasers achieved by controlling point defect formation

Accurate Nanoscale Crystallography in Real-Space Using Scanning Transmission Electron Microscopy

Contact Info

Product

Resources

About

Comparison of thermoelectric properties of nanostructured Mg₂Si, FeSi₂, SiGe, and nanocomposites of SiGe–Mg₂Si, SiGe–FeSi₂

6 kW/cm² UVC laser threshold in optically pumped lasers achieved by controlling point defect formation