In the past, pulsed electrically detected magnetic resonance experiments (pEDMR) with silicon dangling bonds (db) in hydrogenated microcrystalline silicon (μc-Si:H) showed that at low temperatures, two db recombination mechanisms exist where electrons are captured (i) by dbs directly (db-dc) or (ii) via band-tail states (tail-db). Here, similar experiments on hydrogenated amorphous silicon (a-Si:H) and crystalline silicon/silicondioxide interfaces (c-Si/SiO 2 ) are presented. They show that at low temperatures, only the db-dc is detectable at dbs in the c-Si/SiO 2 interface (Pb centers) while in a-Si:H, only tail-db processes are observed.