Photovoltaic bioelectronics merging biology with new generation semiconductors and light in biophotovoltaics photobiomodulation and biosensing

Ebin Joseph, Manuela Ciocca, Haodong Wu, Serena Marcozzi, Maria Assunta Ucci, Kavya Keremane, Luyao Zheng, Bed Poudel, Congcong Wu, Antonella Camaioni, Kai Wang, Shashank Priya, Thomas M. Brown
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Abstract

This review covers advancements in biosensing, biophotovoltaics, and photobiomodulation, focusing on the synergistic use of light, biomaterials, cells or tissues, interfaced with photosensitive dye-sensitized, perovskite, and conjugated polymer organic semiconductors or nanoparticles. Integration of semiconductor and biological systems, using non-invasive light-probes or -stimuli for both sensing and controlling biological behavior, has led to groundbreaking applications like artificial retinas. From fusion of photovoltaics and biology, a new research field emerges: photovoltaic bioelectronics.

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光电生物电子学将生物学与新一代半导体和生物光电学中的光融合在一起 光生物调制和生物传感
这篇综述涵盖了生物传感、生物光电和光生物调制方面的进展,侧重于光、生物材料、细胞或组织与光敏染料敏化、过氧化物和共轭聚合物有机半导体或纳米粒子的协同使用。半导体与生物系统的结合,利用非侵入性光探针或刺激物来感知和控制生物行为,已导致人工视网膜等突破性应用的出现。光电与生物的融合产生了一个新的研究领域:光电生物电子学。
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