Materials Science & Engineering Research Works
Permanent URI for this collectionhttp://hdl.handle.net/1903/1660
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Item Data and simulation files for "Microheater hotspot engineering for spatially resolved and repeatable multi-level switching in foundry-processed phase change silicon photonics"(2025) Sun, Hongyi; Lian, Chuanyu; Rios Ocampo, Carlos A.; Takeuchi, IchiroItem Nanoscale Mixed Ion-Electron Conducting NASICON-type Thin-Films: Lithium Titanium Phosphate via Atomic Layer Deposition(American Chemical Society, 2025) Fontecha, Daniela; Kozen, Alexander; Stewart, David M.; Hall, Alex T.; Cumings, John; Rubloff, Gary W.; Gregorczyk, Keith E.; Rubloff, Gary W.The attached data encompasses the raw data files and processed XPS data for the article “Nanoscale Mixed Ion-Electron Conducting NASICON-type Thin-Films: Lithium Titanium Phosphate via Atomic Layer DepositionItem Dataset for "Resistance of Boron Nitride Nanotubes to Radiation-Induced Oxidation" as published in The Journal of Physical Chemistry C(2024) Chao, Hsin-Yun (Joy); Nolan, Adelaide M.; Hall, Alex T.; Golberg, Dmitri; Park, Cheol; Yang, Wei-Chang David; Mo, Yifei; Sharma, Renu; Cumings, JohnItem Interface Diagnostics Platform for Thin-Film Solid-State Batteries(2024-08-28) Ferrari, Victoria Castagna; Stewart, David Murdock; Rubloff, GaryThis dataset comprises electorchemical impedance spectroscopy measurements from thin film batteries comprised of LiV2O5, LiPON, and Si. The data is associated with a manuscript that describes the methodology and analysis of the data and conclusions we draw from it in complete detail. (At the time of submission, the manuscript was set to be submitted to a peer reviewed journal.) The data herein is intended to be used to model equivalent circuits for each material and the charge transfer interfaces throughout the device in order to construct the model of the full battery. The demonstrated methods to build from simple materials to a complex device are novel in the field and we hope this data and process will be used by other researchers to develop more robust analysis of batteries across academic labs and industry.