Strong charge trapping and bistable electrowetting on nanocomposite fluoropolymer:BaTiO_3 dielectrics

M. K. Kilaru; J. Heikenfeld; G. Lin; J. E. Mark

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Strong charge trapping and bistable electrowetting on nanocomposite fluoropolymer:BaTiO_3 dielectrics

机译：纳米复合含氟聚合物BaTiO_3电介质的强电荷俘获和双稳态电润湿

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摘要

Strong charge trapping and bistable electrowetting on nanocomposite fluoropolymer:BaTiO_3 dielectrics are reported. Thin nanocomposite dielectrics were spin casted from BaTiO_3 nanopowder dispersed in a fluoropolymer/fluorosolvent solution. Electrowetting contact angle versus voltage and capacitance measurements confirm a severalfold increase in film dielectric constant with increasing BaTiO_3 content. Bistable electrowetting was observed as droplets retained a decreased contact angle at 0 V but would dewet the surface by briefly applying a reverse polarity voltage. Strong charge trapping in the nanocomposite was confirmed by charge-Voltage hysteresis. These results could prove important for low-power applications such as bistable displays and electronic paper.

机译：报道了在纳米复合含氟聚合物：BaTiO_3电介质上的强电荷俘获和双稳态电润湿。从分散在含氟聚合物/含氟溶剂溶液中的BaTiO_3纳米粉中旋铸出薄的纳米复合电介质。电润湿接触角对电压和电容的测量结果证实，随着BaTiO_3含量的增加，薄膜介电常数增加了几倍。观察到双稳态电润湿，因为液滴在0 V时保持减小的接触角，但是会通过短暂施加反极性电压来润湿表面。电荷-电压迟滞证实了纳米复合材料中的强电荷捕获。这些结果对于双稳态显示器和电子纸等低功率应用可能很重要。

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来源
《Applied Physics Letters》 |2007年第21期|p.212906.1-212906.3|共3页
作者
M. K. Kilaru; J. Heikenfeld; G. Lin; J. E. Mark;
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作者单位

Novel Devices Laboratory, Department of Electrical and Computer Engineering, University of Cincinnati, Cincinnati, Ohio 45221;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类应用物理学;计量学;
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Strong charge trapping and bistable electrowetting on nanocomposite fluoropolymer:BaTiO_3 dielectrics

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