Substrate effect on the structural phase formation and magnetic properties of α-Fe2O3 and Ti doped α-Fe2O3 thin films

“…Magnetization analyses of CFM type 1 (A) and CFM type 2 (B-D) revealing the presence of a significant magnetic transition in both the type of samples at approximately 150 K. In D the large values of the measured saturation magnetization are attributable to the presence of residual a-Fe within the CFM type 2 sample.The transition 1 at about 140 K in CFM type-1 sample appears to be due to Fe 3 O 4 (high ferrimagnetic phase) with Verwey transition expected in a wide temperature range 120-140 K 29,30. However, XRD measurements do not support the presence of such iron oxide phase in the present samples.9880 | RSC Adv., 2020, 10, 9878-9883 This journal is © The Royal Society of Chemistry 2020 RSC Advances Paper Open Access Article.…”

Vacancy-induced interfacial ferromagnetic features in SmFeO₃-filled graphitic carbon foam

“…Magnetization analyses of CFM type 1 (A) and CFM type 2 (B-D) revealing the presence of a significant magnetic transition in both the type of samples at approximately 150 K. In D the large values of the measured saturation magnetization are attributable to the presence of residual a-Fe within the CFM type 2 sample.The transition 1 at about 140 K in CFM type-1 sample appears to be due to Fe 3 O 4 (high ferrimagnetic phase) with Verwey transition expected in a wide temperature range 120-140 K 29,30. However, XRD measurements do not support the presence of such iron oxide phase in the present samples.9880 | RSC Adv., 2020, 10, 9878-9883 This journal is © The Royal Society of Chemistry 2020 RSC Advances Paper Open Access Article.…”

Vacancy-induced interfacial ferromagnetic features in SmFeO₃-filled graphitic carbon foam

“…3b and S4 †). 46 The characteristic peaks of TiP-related compounds are not observed, suggesting that Ti may replace a part of Fe in FeP by isomorphous replacement rather than generating a new crystal phase.…”

Ti-doped iron phosphide nanoarrays grown on carbon cloth as a self-supported electrode for enhanced electrocatalytic nitrogen reduction

One‐Pot Synthesis and Characterization of Magnetic α‐Fe₂O₃/CuO/CuFe₂O₄ Nanocomposite for Multifunctional Therapeutic Applications