Anisotropic ultrasensitive PdTe(2)-based phototransistor for room-temperature long-wavelength detection

Emergent topological Dirac semimetals afford fresh pathways for optoelectronics, although device implementation has been elusive to date. Specifically, palladium ditelluride (PdTe(2)) combines the capabilities provided by its peculiar band structure, with topologically protected electronic states, with advantages related to the occurrence of high-mobility charge carriers and ambient stability. Here, we demonstrate large photogalvanic effects with high anisotropy at terahertz frequency in PdTe(2)-based devices. A responsivity of 10 A/W and a noise-equivalent power lower than 2 pW/Hz(0.5) are achieved at room temperature, validating the suitability of PdTe(2)-based devices for applications in photosensing, polarization-sensitive detection, and large-area fast imaging. Our findings open opportunities for exploring uncooled and sensitive photoelectronic devices based on topological semimetals, especially in the highly pursuit terahertz band.