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W3133973408 abstract "The nanoscale resistive switching characteristics of gallium phosphide (GaP) thin films directly grown on Si are investigated as a function of incident light. The formation of conductive channels along the grain boundaries is attributed to the presence of point defects and structural disorder, which provide the ideal environment to enable the filamentary switching process. Both first-principles calculations and UV-vis and photoluminescence spectroscopy strongly point to the possibility of mid-gap electronic states in the polycrystalline GaP film due to such defects. To study the photonic excitation, photoconductive atomic force microscopy (phAFM) measurement is conducted. We observe photocurrents even for incident photon energies lower than the band gap, consistent with the presence of mid-gap electronic states; the photocurrents increase in direct proportion to the incident photon energy with a concomitant decrease in the filament resistance. This demonstrates GaP directly integrated on Si can be a promising photonic resistive switching materials system." @default.
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W3133973408 date "2021-03-02" @default.
W3133973408 modified "2023-10-16" @default.
W3133973408 title "Optical Tuning of Resistance Switching in Polycrystalline Gallium Phosphide Thin Films" @default.
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W3133973408 doi "https://doi.org/10.1021/acs.jpclett.1c00163" @default.
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