T. Sakakibara, H. Izu, T. Kura, W. Shinohara, H. Iwata, S. Kiyama, S. Tsuda
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引用次数: 13
摘要
光伏微器件可以产生超过200伏电压,面积为1平方厘米,直接驱动微致动器,如压电或静电致动器。微器件由285个微单元(单元尺寸:约0.5 mm X2.0 mm)三维互连而成。它们在AM(空气质量)1.5和100mW/cmz照明下产生开路电压(VJ为207伏,短路电流(Is,)为36.6,~ A,最大输出功率(F",,)为4.65mW,填充系数(F.F.)为0.615。每个微电池具有a- si三堆叠结构,产生2.3伏的V,和6.5 mA/cm2的短路电流密度(J,J)。用于微单元的串联连接由聚焦激光束精确处理,从而显着减少了设备上连接所需的面积。为了评估该器件作为微致动器电源的潜力,有必要研究压电聚合物是否可以由其电输出直接驱动。这种能力得到了证实。
High-voltage photovoltaic micro-devices fabricated by a new laser-processing
Photovoltaic micro-devices that can generate more than 200 volts with an area of 1 cm2 have been developed to directly drive microactuators like such as piezoelectric or electrostatic actuators. The microdevices consist of 285 micro cells (unit cell size : about 0.5 mm X2.0 mm) interconnected threedimensionally. They generate an open circuit voltage (VJ of 207 volts, short circuit current (Is,) of 36.6,~ A, maximum output power (F",,) of 4.65mW and fill factor (F.F.) of 0.615 under AM (Air Mass) 1.5 and 100mW/cmz illumination. Each micro cell has an a-Si triple stack structure and generates a V,, of 2.3 volts and a short circuit current density (J,J of 6.5 mA/cm2. The series connection used for the micro cells is precisely processed by a focused lascr beam, thereby significantly reducing the area needed for connection on the devices. To evaluate the potential of the devices to be used as a microactuator's power source, it was necessary to investigate whether a piezoelectric polymer could be directly driven by their electrical output. This capability was confirmed.
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