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Organic electrolytic photocapacitors transduce light pulses into localized displacement currents that electrically stimulate neurons. These nanoscale devices are freestanding, requiring no wiring, and are stable in physiological conditions. In article number 1707292, Yael Hanein, Eric Daniel Głowacki, and co‐workers successfully photostimulate cultured neurons and light‐insensitive explanted retinas,...
An efficient nanoscale semiconducting optoelectronic system is reported, which is optimized for neuronal stimulation: the organic electrolytic photocapacitor. The devices comprise a thin (80 nm) trilayer of metal and p–n semiconducting organic nanocrystals. When illuminated in physiological solution, these metal–semiconductor devices charge up, transducing light pulses into localized displacement...
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