AUTHOR=Hosokawa Saburo 

TITLE=Hexagonal Rare Earth-Iron Mixed Oxides (REFeO3): Crystal Structure, Synthesis, and Catalytic Properties

JOURNAL=Frontiers in Chemistry

VOLUME=7

YEAR=2019

URL=https://www.frontiersin.org/journals/chemistry/articles/10.3389/fchem.2019.00008

DOI=10.3389/fchem.2019.00008

ISSN=2296-2646

ABSTRACT=<p>The rare earth-iron mixed oxide (REFeO<sub>3</sub>) is an attractive material in fields such as electronic, magnetic, and catalytic research. Generally, orthorhombic REFeO<sub>3</sub> (<italic>o</italic>-REFeO<sub>3</sub>) with a perovskite structure is better known than hexagonal REFeO<sub>3</sub> (<italic>h</italic>-REFeO<sub>3</sub>), because <italic>o-</italic>REFeO<sub>3</sub> is thermodynamically stable for all RE elements. However, <italic>h</italic>-REFeO<sub>3</sub> has a very interesting crystal structure in which a RE and Fe layer are alternately stacked along the <italic>c</italic>-axis in the unit cell; nevertheless, synthesis of the <italic>h</italic>-REFeO<sub>3</sub> belonging to metastable phase can be problematic. Fortunately, solution-based synthetic methods like solvothermal or coprecipitation synthesis have recently enabled the selective synthesis of <italic>h</italic>-REFeO<sub>3</sub> and <italic>o</italic>-REFeO<sub>3</sub> with comparative ease. Although the electronic and magnetic properties of <italic>h</italic>-REFeO<sub>3</sub> have typically been evaluated, recent research has also revealed excellent catalytic properties that enable environmental cleanup reactions such as hydrocarbon or CO oxidation. This mini-review introduces a synthetic method for controlling the crystal structure between orthorhombic and hexagonal REFeO<sub>3</sub> and the catalytic performance of <italic>h</italic>-REFeO<sub>3</sub>-based materials.</p>