Abstract:Traditional electron-multiplying charge-coupled devices suffer from slow readout and large power consumption because of the complex driving circuitry implemented for the square clocking to serially transfer the charge during the readout process. At the same time, the photo-generated carriers are also prone to pre-amplification losses. Owing to the electrostatic capacitive coupling of the tunable graphene channel with the silicon photogate, an in-situ transient photoresponse study of the single graphene-oxide-s… Show more
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