Synthesis and phase transitions of iron phosphate

“…FePO 4 changes into a trigonal system at 650°C. When the temperature rises to 705°C, an α-β phase transition from a P6222 to a P31121 space group occurs [34]. Compared to the tetragonal system of LiFePO 4 , FeO 6 octahedron is replaced by FeO 4 tetrahedron in the trigonal system [35] (Fig.…”

Research status in preparation of FePO4: a review

“…FePO 4 changes into a trigonal system at 650°C. When the temperature rises to 705°C, an α-β phase transition from a P6222 to a P31121 space group occurs [34]. Compared to the tetragonal system of LiFePO 4 , FeO 6 octahedron is replaced by FeO 4 tetrahedron in the trigonal system [35] (Fig.…”

Research status in preparation of FePO4: a review

“…Recently, iron phosphate compounds have attracted considerable research interest in the field of material science due to their outstanding chemical, thermal, electrical and magnetic properties [1][2][3][4][5]. Crystalline and amorphous iron phosphate materials have been developed and applied widely in various technologically important fields such as catalysis [6][7], electrochemistry [8][9][10][11], optical and magnetic materials [12][13][14][15][16], biosensor fabrication [17], bio-absorbable glass fibers [18], industrial coatings [19], and tissue engineering [20]. Moreover, the high chemical durability of iron phosphate glasses makes them suitable as alternative materials for safe immobilization and permanent disposal of a variety of high-level nuclear waste [3,[21][22][23][24][25][26][27].…”

Low temperature heat capacity Study of Fe(PO3)3 and Fe2P2O7

“…Crystalline iron phosphate compounds have been developed for several applications, including catalysts, optical materials and electrodes [1][2][3][4][5]. Chemically durable iron phosphate glasses have been studied as alternative materials for vitrifying high-level nuclear waste [6][7][8][9][10].…”

Thermal stability of glasses from the Fe4(P2O7)3–Fe(PO3)3 system