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Bioinspired two‐dimensional (2D) nanofluidic systems for photo‐induced ion transport have attracted great attention, as they open a new pathway to enabling light‐to‐ionic energy conversion. However, there is still a great challenge in achieving a satisfactory performance. It is noticed that organic solar cells (OSCs, light‐harvesting device based on photovoltaic effect) commonly require hole/electron...
The asymmetric ion transport in the nanoconfined space, similar to that of natural ion channels, has attracted broad interest in sensor, energy conversion, and other related fields. Among these systems, the surface charge plays an important role in regulating ion transport behaviors. Herein, this surface charge‐regulated asymmetric ion transport behavior is systematically explored in the nanoconfined...
A bioinspired adenosine activated nanodevice is demonstrated in which the conformations of the designed aptamer change and cause signal transmission according to the emergence of adenosine. This bioinspired system exhibits very high response ratios (activated/nonactivated ratio up to 614) and excellent stability and reversibility, and shows promising applications in the fields of biosensors, pharmaceutica,...
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