Abstract: A two-terminal photon-effect transistor (PET) is described that simplifies the photo sensing pixel by combing photodiode and field effect transistor dual functions into one simple but effective unit. Photons excite electrons from the valance band of semiconducting material as the electrode-free gate to modulate resistivity between source and drain, which directly results in current amplification of photo signal without traditional photo-electrical conversion and electrical amplification dual processes. PET possesses significance in both structural simplification and functional enhancement. As an implementing example of PET, a nanowire camera (NC) with large sensing area and extremely high resolution is fabricated by integrating millions of vertically aligned nanowire arrays in-between of orthogonal top and bottom nano-stripe electrodes. Each nanowire works as independent three-dimensional (3D) PET pixel, enabling the NC an ultra-high resolution and much simplified architecture.
Abstract: Various examples are provided for pillar array photo detectors. In one example, among others, a photo detection system includes an array of substantially aligned photo sensitive nanorods extending between first and second electrodes, and a plurality of resistance monitoring circuits coupled at different positions about the circumference of the electrodes. In another example, a photo detector includes first and second electrodes, and an array of substantially aligned photo sensitive nanorods extending between the substantially parallel electrodes. Light passing through an electrode excites electrons in the photo sensitive nanorods that are illuminated by the light.