%R 10.1016/j.physb.2016.11.024 %D 2017 %L scholars8836 %J Physica B: Condensed Matter %O cited By 12 %K Copper oxides; Hematite; Magnetic fields; Metabolism; Nanocatalysts; Nanowires; Urea; X ray diffraction, Ambient pressures; High-saturation magnetization; Monoclinic phase; Nano-catalyst; Oscillating magnetic fields; Rhombohedral structures; Static magnetic fields; Urea production, Saturation magnetization %X Hematite and cupric oxide nanowires have been synthesized using the oxidation method for green urea production. Hematite nanowires were obtained by the oxidation of an iron wire at a temperature of 650 °C and ambient pressure in the presence of N2 and O2 gases. Cupric oxide nanowires were obtained by the same method at 700 °C, using a copper wire. The X-ray diffraction results show the formation of rhombohedral structure of α-Fe2O3 and monoclinic phase of CuO. FE-SEM results reveal the formation of nanowires with dimensions ranging between 5�15 µm and 4�12 µm in length and a diametere ranging between 50�150 nm and 50�250 nm for α-Fe2O3 and CuO respectively. The VSM results show that the saturation magnetization values for hematite and cupric oxide were 132.8700 and 0.0124 emu/g, respectively. The nanowires were used as catalyst for green urea synthesis in the presence of an oscillating and a static magnetic fields. The use of nanocatalyst with high saturation magnetization gives a higher yield of urea due to the increase in the singlet to triplet conversion. The highest yield of urea 11243 ppm was achieved by applying an oscillating magnetic field of frequency 0.5 MHz and using α-Fe2O3 nanowires as nanocatalyst. © 2016 Elsevier B.V. %P 95 %V 507 %I Elsevier B.V. %A N. Yahya %A B. Alqasem %A M. Irfan %A S. Qureshi %A Z.U. Rehman %A A. Shafie %A H. Soleimani %T The effect of saturation magnetization of nanocatalyst and oscillating magnetic field for green urea synthesis