Use of Polarization Curves and Impedance Analyses to Optimize the “Triple-Phase Boundary” in K–O2 Batteries
By A Mystery Man Writer
Description
![Use of Polarization Curves and Impedance Analyses to Optimize the “Triple-Phase Boundary” in K–O2 Batteries](https://pub.mdpi-res.com/materials/materials-15-03663/article_deploy/html/images/materials-15-03663-g001.png?1653046208)
Materials, Free Full-Text
![Use of Polarization Curves and Impedance Analyses to Optimize the “Triple-Phase Boundary” in K–O2 Batteries](https://media.springernature.com/full/springer-static/image/art%3A10.1038%2Fsrep22369/MediaObjects/41598_2016_Article_BFsrep22369_Fig1_HTML.jpg)
Proton-conducting Micro-solid Oxide Fuel Cells with Improved
![Use of Polarization Curves and Impedance Analyses to Optimize the “Triple-Phase Boundary” in K–O2 Batteries](https://pubs.acs.org/cms/10.1021/acs.jpcc.7b11898/asset/images/medium/jp-2017-11898s_0006.gif)
Oxygen Pressure Influences Spatial NaO2 Deposition and the Sudden
![Use of Polarization Curves and Impedance Analyses to Optimize the “Triple-Phase Boundary” in K–O2 Batteries](https://www.researchgate.net/publication/342234196/figure/fig3/AS:905732039913472@1592954754371/a-ORR-and-b-OER-polarization-curves-of-composite-samples-prepared-by-physical-mixing.png)
a ORR and b OER polarization curves of composite samples prepared
![Use of Polarization Curves and Impedance Analyses to Optimize the “Triple-Phase Boundary” in K–O2 Batteries](https://ars.els-cdn.com/content/image/1-s2.0-S0360319922051023-gr6.jpg)
Experimental investigation of segmented SOECs: Locally-resolved
![Use of Polarization Curves and Impedance Analyses to Optimize the “Triple-Phase Boundary” in K–O2 Batteries](https://media.springernature.com/m685/springer-static/image/art%3A10.1007%2Fs40820-023-01298-w/MediaObjects/40820_2023_1298_Fig5_HTML.png)
Novel Perovskite Oxide Hybrid Nanofibers Embedded with
Gerald Gourdin - Visiting Assistant Professor - Clark University
![Use of Polarization Curves and Impedance Analyses to Optimize the “Triple-Phase Boundary” in K–O2 Batteries](https://www.researchgate.net/publication/323785868/figure/fig1/AS:614113403207695@1523427453498/a-Polarization-curves-for-MEAs-with-Pt-V-cathode-over-1000-hours-of-wet-drive-cycle.png)
a) Polarization curves for MEAs with Pt/V cathode over 1000 hours
a) H2/O2 fuel cell polarization curves of the GBP-Pt-600 sample
![Use of Polarization Curves and Impedance Analyses to Optimize the “Triple-Phase Boundary” in K–O2 Batteries](https://www.researchgate.net/profile/Wang-Luyao-11/publication/377193509/figure/fig5/AS:11431281217251143@1705099964018/A-Best-J-V-data-of-PSCs-with-TiO-2-and-PbSO-4-obtained-in-forward-FS-and-reverse_Q320.jpg)
Yiying WU, Professor (Full), PhD
![Use of Polarization Curves and Impedance Analyses to Optimize the “Triple-Phase Boundary” in K–O2 Batteries](https://www.researchgate.net/profile/Stuart-Licht/publication/202448879/figure/fig3/AS:11431281221890533@1706890266866/FTIR-diffuse-reflectance-spectrum-in-absorbance-mode-of-a-a-Pt-FeIII-electrode-and_Q320.jpg)
Gerald GOURDIN, PostDoc Position, PhD
![Use of Polarization Curves and Impedance Analyses to Optimize the “Triple-Phase Boundary” in K–O2 Batteries](https://media.springernature.com/m685/springer-static/image/art%3A10.1007%2Fs41918-022-00160-8/MediaObjects/41918_2022_160_Fig32_HTML.png)
Solid-State Electrochemistry and Solid Oxide Fuel Cells: Status
from
per adult (price varies by group size)