利用光合色素-蛋白质复合物具有大光电流响应的仿生光电二极管装置

Jurnal Neutrino Pub Date : 2017-04-30 DOI:10.18860/neu.v9i2.4042

D. Y. Kusuma, H. Soetedjo

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引用次数: 2

摘要

在包含光合光捕获叶绿素蛋白复合物作为活性物质的固态横向光电二极管装置中，证明了光到能量的有效转换。当辐射功率为320 mW/ cm2时，该器件具有365µA/ cm2的最高光电流密度响应。在连续的黑暗和照明状态循环中，光电流响应稳定在104 s以上。光电流波形在亚秒范围内的上升和衰减时间短，表明器件内具有有效的光发生和电荷提取。利用吸收系数法提取光带隙，发现活性物质的能隙在2.8 ~ 3.8 eV之间，对应于光合色素-蛋白复合物的光系统I和光系统II。

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BIOMIMETIC PHOTODIODE DEVICE WITH LARGE PHOTOCURRENT RESPONSE USING PHOTOSYNTHETIC PIGMENT-PROTEIN COMPLEXES

Efficient light to energy conversion was demonstrated in solid-state, lateral photodiodes device containing photosynthetic light-harvesting chlorophyll protein complexes as active materials. The device exhibits the highest reported photocurrent density response of 365 µA/cm 2 when illuminated at 320 mW/cm 2 radiation source power. The photocurrent response wa s stabled over 10 4 s of continuous cycles of dark and illumination states. The short rise and decay time of the photocurrent waveform within sub-second range indicates an effective photogeneration and charge extraction within the device. Optical bandgap extraction using absorption coefficient method reveals that the energy gap of the active materials ranges from 2.8 to 3.8 eV, correspond to the Photosystem I and Photosystem II of the photosynthetic pigment-protein complexes.

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Jurnal Neutrino

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