Enhanced Photocharacteristics by Fermi Level Modulating in Sb 2 Te 3 /Bi 2 Se 3 Topological Insulator p-n Junction.
Seok-Bo HongDajung KimJonghoon KimJaehan ParkSeungwon RhoJaeseok HuhYoungmin LeeKwang-Sik JeongMann-Ho ChoPublished in: Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2023)
Topological insulators have recently received attention in optoelectronic devices because of their high mobility and broadband absorption resulting from their topological surface states. In particular, theoretical and experimental studies have emerged that can improve the spin generation efficiency in a topological insulator-based p-n junction structure called a TPNJ, drawing attention in optospintronics. Recently, research on implementing the TPNJ structure is conducted; however, studies on the device characteristics of the TPNJ structure are still insufficient. In this study, the TPNJ structure is effectively implemented without intermixing by controlling the annealing temperature, and the photocharacteristics appearing in the TPNJ structure are investigated using a cross-pattern that can compare the characteristics in a single device. Enhanced photo characteristics are observed for the TPNJ structure. An optical pump Terahertz probe and a physical property measurement system are used to confirm the cause of improved photoresponsivity. Consequently, the photocharacteristics are improved owing to the change in the absorption mechanism and surface transport channel caused by the Fermi level shift in the TPNJ structure.