Non-fullerene acceptor based photoelectric material for retinal prosthesis

IF 4.7 Q2 NANOSCIENCE & NANOTECHNOLOGY
Hyunsun Song, Hyeonhee Roh, Jae Young Kim, Byung Chul Lee, Bright Walker, Maesoon Im
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Abstract

Microelectronic retinal implants can restore a useful level of artificial vision in photoreceptor-damaged retina. Previously commercialized retinal prostheses require transocular connection lines to an external power supply and/or for data transmission, which are unwieldy and may cause unwanted side effects, such as infections. A recently reported wireless device used a rigid silicon substrate. However, it had the potential for a long-term mechanical mismatch with soft retinal tissue. In this work, we used organic photovoltaic materials which can be fabricated on flexible substrates as well as be operated without any physical connection to the external world. The present study employed PCE10 as an active layer for retinal prosthetic application for the first time. Compared to previously studied organic photovoltaic materials used in retinal prosthesis research (such as P3HT), our PCE10 devices showed higher efficiency, providing a huge advantage in this field. When the PCE10 was blended with other non-fullerene acceptors achieving a ternary organic photovoltaic layer (PCE10:ITIC:Y6 blend), it showed lower reduction of photocurrent under same irradiation frequency condition. The fabrication method for our organic photovoltaic device was simple and easy to control its thickness. The fabricated devices showed adequate photocurrent to stimulate the retinal neurons with a smaller reduction in generated photocurrent during repeating stimuli compared to P3HT or PCE10 alone.Author names: Please confirm if the author names are presented accurately and in the correct sequence (given name, middle name/initial, family name). Author: Given name [Jae Young] Last name [Kim]. Author: Given name [Byung Chul] Last name [Lee].Yes, they are correct.

基于非富勒烯受体的视网膜假体光电材料
微电子视网膜植入物可以在受光感受器损伤的视网膜上恢复有用的人工视力。以前商业化的视网膜假体需要经眼连接到外部电源和/或数据传输,这是笨重的,可能会导致不必要的副作用,如感染。最近报道了一种使用刚性硅衬底的无线设备。然而,它有可能与软视网膜组织长期机械不匹配。在这项工作中,我们使用了有机光伏材料,它可以在柔性衬底上制造,并且可以在没有任何物理连接的情况下与外部世界进行操作。本研究首次采用PCE10作为视网膜假体应用的活性层。与之前研究的用于视网膜假体研究的有机光伏材料(如P3HT)相比,我们的PCE10器件具有更高的效率,在该领域具有巨大的优势。当PCE10与其他非富勒烯受体共混形成三元有机光伏层(PCE10:ITIC:Y6共混物)时,在相同辐照频率条件下,其光电流降低幅度较小。本发明的有机光伏器件制作方法简单,厚度易于控制。与单独的P3HT或PCE10相比,制造的装置显示出足够的光电流来刺激视网膜神经元,并且在重复刺激期间产生的光电流减少较少。作者姓名:请确认作者姓名是否准确且顺序正确(名,中间名/首字母,姓)。作者:名[Jae Young]姓[Kim]。作者:名[秉哲]姓[李]。是的,他们是正确的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Micro and Nano Systems Letters
Micro and Nano Systems Letters Engineering-Biomedical Engineering
CiteScore
10.60
自引率
5.60%
发文量
16
审稿时长
13 weeks
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