EPR/FMR, FTIR, X-Ray and Raman Investigations of Fe-Doped SiCN Ceramics

SiCN magnetic ceramics doped with Fe ions were synthesized at different pyrolysis temperatures in the range from 600 to 1600A degrees C. Several phases of ceramics were detected using the techniques of electron paramagnetic resonance/ferromagnetic resonance, Raman, Fourier-transform infrared and X-ray diffractometry, listed as follows: (a) transformation to the ceramic state from the polymer state, where the Fe ions are in the paramagnetic state, as the temperature is increased from 600 to 800A degrees C; (b) formation of two different Fe species in the range of 950-1150A degrees C: nanocrystalline particles in the ferromagnetic state and Fe ions incorporated into the free-carbon state in the superparamagnetic state; (c) diminution of the free-carbon content above 1150A degrees C, and, as a consequence, diminution of the intensity of the broad Fe signal related to this phase; (d) appearance of a new Fe phase at about 1200A degrees C; (e) disappearance of the ferromagnetic phase at about 1400A degrees C; (f) disappearance of all Fe ions above 1530A degrees C. The samples exhibiting superparamagnetic behavior are potentially useful in developing high-temperature magnetic sensor devices.