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1. Copper Oxide Passivation Effect on Electromigration Lifetime of Plasma Etched Copper Lines

   https://doi.org/10.1149/09803.0099ecst  

   Su, Jia Quan; Kuo, Yue (September 2020, ECS transactions)

   The degradation of the copper oxide passivated copper line prepared from a room temperature plasma-based etch process under the electromigration condition has been studied. The copper line surface was oxidized into the copper oxide layer in a parallel-plate plasma reactor operated under the plasma etching or reactive ion etching mode. The surface roughness of the oxide is contributed by the high ion bombardment energy. The lifetime of the sample was shortened by the addition of the oxide passivation layer. It was also decreased with the increase of the stress current density. The sample with the thin bulk copper layer is more resistant to the thermal stress than that with the thick bulk copper layer, which delayed the voids formation in the line breakage process. 

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2. Nitrogen plasma passivated niobium resonators for superconducting quantum circuits

   https://doi.org/10.1063/5.0082755  

   Zheng, K.; Kowsari, D.; Thobaben, N. J.; Du, X.; Song, X.; Ran, S.; Henriksen, E. A.; Wisbey, D. S.; Murch, K. W. (March 2022, Applied Physics Letters)

   Microwave loss in niobium metallic structures used for superconducting quantum circuits is limited by a native surface oxide layer formed over a timescale of minutes when exposed to an ambient environment. In this work, we show that nitrogen plasma treatment forms a niobium nitride layer at the metal–air interface, which prevents such oxidation. X-ray photoelectron spectroscopy confirms the doping of nitrogen more than 5 nm into the surface and a suppressed oxygen presence. This passivation remains stable after aging for 15 days in an ambient environment. Cryogenic microwave characterization shows an average filling-factor-adjusted two-level-system loss tangent [Formula: see text] of [Formula: see text] for resonators with a 3 [Formula: see text]m center strip and [Formula: see text] for a 20 [Formula: see text]m center strip, exceeding the performance of unpassivated samples by a factor of four. 

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3. CdMgTe as an Electron Reflector for MgZnO/CdSeTe/CdTe Solar Cells

   Bothwell, A.M.; Brayton, J.A. (January 2019, IEEE PVSC 2019)

   CdMgTe with a 1.8-eV band gap was deposited at the back of MgZnO/CdSeTe/CdTe superstrates to create a conduction band barrier and reduce back surface recombination. To minimize CdCl2 passivation loss, substrate preheat time was varied. Photoluminescence, carrier lifetime, and quantum efficiency showed improvement with shorter preheat and secondary ion mass spectrometry profiles showed retention of CdCl2 passivation for short CdMgTe preheat. An HCl acid etch treatment and CdTe cap layer were incorporated independently after the CdMgTe on additional devices to minimize magnesium oxidation and the CdTe cap device showed initial promise with device efficiency reaching 13.1%. 

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4. Isothermal and Cyclic Oxidation of MoAlB in Air from 1100° C to 1400°

   Kota, S. (January 2017, Journal of the Electrochemical Society)

   Like many FeCrAl-based alloys, and some MAX phases, the atomically laminated boride, MoAlB, forms slow-growing, adherent Al2O3 scales when heated in air to 1350°C. Herein the oxidation of MoAlB ceramics in air was studied in the 1100–1400°C temperature range for up to 200 h. At 1400°C, the oxide scale was heavily cracked and spalled. At 1100°C, and up to 20 h, mass loss was recorded. At 1300°C and 1350°C, subparabolic, approximately cubic kinetics were observed, as a result of growth and coarsening of the Al2O3 grains in the oxide scale. At 1200°C, the weight gain kinetics were nearly linear, while the oxide thickening kinetics were approximately cubic likely due to cubic growth of Al2O3 and concurrent volatility of constituents in the oxide scale. The cyclic oxidation resistance was also good for up to 125, 1-hour, cycles at 1200°C. Analysis of grain coarsening and scale thickening kinetics suggest that oxygen grain boundary diffusivity is the rate controlling mechanism for the growth of Al2O3 scales at 1300°C and 1350°C. Dimensional changes at samples’ corners after long oxidation at T > 1200°C may limit the maximum operational temperature of MoAlB. 

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5. Templated Growth of a Homochiral Thin Film Oxide

   https://doi.org/10.1021/acsnano.0c00398  

   Schilling, Alex C.; Therrien, Andrew J.; Hannagan, Ryan T.; Marcinkowski, Matthew D.; Kress, Paul L.; Patel, Dipna A.; Balema, Tedros A.; Larson, Amanda M.; Lucci, Felicia R.; Coughlin, Benjamin P.; et al (April 2020, ACS Nano)

   Chiral surfaces are of growing interest for enantioselective adsorption and reactions. While metal surfaces can be prepared with a wide range of chiral surface orientations, chiral oxide surface preparation is much more challenging. Herein, we demonstrate that the chirality of a metal surface can be used to direct the homochiral growth of a thin film chiral oxide. Specifically, we study the chiral ‘29’ copper oxide, formed by oxidizing a Cu(111) single crystal at 650 K. Surface structure spread single crystals which expose a continuous distribution of surface orientations as a function of position on the crystal, enabled us to systematically investigate the mechanism of chirality transfer between metal and oxide with high-resolution scanning tunneling microscopy. We discovered that the local underlying metal facet directs the orientation and chirality of the oxide overlayer. Importantly, single homochiral domains of the ‘29’ oxide were found in areas where the Cu step edges that templated growth were ≤20 nm apart. We used this information to select a Cu(239 241 246) oriented single crystal and demonstrate that a ‘29’ oxide surface can be grown in homochiral domains by templating from the subtle chirality of the underlying metal crystal. This work demonstrates how a small degree of chirality induced by very slight misorientation of a metal surface (~1 sites/ 20 nm2) can be amplified by oxidation to yield a homochiral oxide with a regular array of chiral oxide pores (~75 sites/ 20 nm2). This offers a general approach for making chiral oxide surfaces via oxidation of an appropriately miscut metal surface. 

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