材料科学
纳米机器人学
光伏系统
荧光粉
激光器
光电子学
发光
稀土
纳米技术
光学
电气工程
物理
工程类
冶金
作者
Zhigang Chen,Lisha Zhang,Yangang Sun,Junqing Hu,Dayang Wang
标识
DOI:10.1002/adfm.200901630
摘要
Abstract A prerequisite for designing and constructing wireless biological nanorobots is to obtain an electrical source that is continuously available in the operational biological environment. Herein the first preparation of 980‐nm laser‐driven photovoltaic cells (980LD‐PVCs) by introducing of a film of rare‐earth up‐converting nanophosphors in conventional dye‐sensitized solar cells is reported. Under the irradiation of a 980‐nm laser with a power of 1 W, the visible up‐converting luminescence of rare‐earth nanophosphors can be efficiently absorbed by the dyes in 980LD‐PVCs so that they exhibit a maximal output power of 0.47 mW. In particular, after being covered with 1 to 6 layers of pig intestines (thickness: ca. 1 mm per layer) as a model of biological tissues, 980LD‐PVCs still possess a maximal output power of between 0.28 and 0.02 mW, which is efficient enough to drive many kinds of biodevices. This research opens up the possibility of preparing and/or developing novel electrical sources for wireless biological nanorobots and many other biodevices.
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