Passivation of Detector-Grade Float Zone Silicon with Atomic Layer Deposited Aluminum Oxide

Silicon radiation and particle detectors are traditionally passivated with thermal silicon dioxide. It has been shown that aluminum oxide (Al2O3) films provide better surface passivation due to their high negative charge, but studies on Al2O3 surface passivation are usually performed on low-resistivity substrates. Herein, the passivation of high-resistivity, detector-grade float zone silicon (FZ-Si) with Al2O3 is studied, with a specific emphasis on the effect of post-annealing temperature on carrier lifetimes and film properties. It is confirmed that Al2O3 provides excellent surface passivation also on high-resistivity FZ-Si substrates, with a low interface defect density of around (2-4) x 10(11) cm(-2) eV(-1) and a high negative oxide charge of 1 x 10(12) to 3 x 10(12) q cm(-2), when post-annealed at temperatures of up to 450-500 degrees C. In addition, high-resistivity samples are studied for the phenomenon of bulk lifetime degradation occurring at typical post-annealing or metal sintering temperatures, which has been reported for low-resistivity FZ-Si. At post-annealing temperatures of >500 degrees C, reduced bulk lifetimes are observed if the substrates did not receive high-temperature treatment prior to surface passivation. Furthermore, it is noticed that n-type samples exhibit lower bulk lifetimes even when a high-temperature treatment is performed, which indicates a connection between FZ-Si bulk lifetime degradation and doping type.Peer reviewe