Paper MI+SA-WeM6
Anomaly in Electric Transport Behaviour of Fe₃O₄ Thin Films

Wednesday, November 1, 2017, 9:40 am, Room 11

Nanocrystalline Fe₃O₄ thin films were grown by adopting two different reduction approaches (1) vacuum annealing (2) wet H₂ annealing . While vacuum annealed films shows Verwey transition with lower resistivity compared to the bulk Fe₃O₄, the same are not observed in electric transport properties of wet H₂ annealed films. However, this transition was clearly seen in the temperature dependence of magnetization of both sets of Fe₃O₄ thin films. This seems to indicate that the both electric transport and magnetization are independent processes; it’s just coincidence to happen at same place of Verwey transition at 120 K in Fe₃O₄. Different electric transport properties in both reductions treated Fe₃O₄ films could be ascribed to different grain sizes/grain boundary volumes, inhomogeneities and presence of residual atomic-H at grain boundaries emanating from complex reductions treatments.