Organic monolayers on Si(211) for triboelectricity generation: etching optimization and relationship between the electrochemistry and current output

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Date
2022-09-28
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Publisher
American Chemical Society
Abstract
Triboelectric nanogenerators (TENGs) based on sliding silicon-organic monolayer-metal Schottky diodes are an emerging autonomous direct-current (DC) current supply technology. Herein, using conductive atomic force microscopy and electrochemical techniques, we explore the optimal etching conditions toward the preparation of DC TENGs on Si(211), a readily available, highly conductive, and underexplored silicon crystallographic cut. We report optimized conditions for the chemical etching of Si(211) surfaces with subnanometer root-mean-square roughness, explore Si(211) chemical passivation, and unveil a relationship between the electrochemical charge-transfer behavior at the silicon-liquid interface and the zero-applied bias current output from the corresponding dynamic silicon-organic monolayer-platinum system. The overall aim is to optimize the etching and functionalization of the relatively underexplored Si(211) facet, toward its application in out-of-equilibrium Schottky diodes as autonomous power supplies. We also propose the electrochemical behavior of surface-confined redox couples as a diagnostic tool to anticipate whether or not a given surface will perform satisfactorily when used in a TENG design. © 2022 American Chemical Society
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Keywords
Electrodes, Etching, Silicon, Atomic force microscopy, Electrochemistry, Passivation, Schottky barrier diodes, Redox process
Citation
Hurtado, C., Lyu, X., Ferrie, S., Le Brun, A. P., MacGregor, M., & Ciampi, S. (2022). Organic monolayers on Si(211) for triboelectricity generation: etching optimization and relationship between the electrochemistry and current output ACS Applied Nano Materials, 5(10), 14263-14274. doi:10.1021/acsanm.2c02006
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