Correlating the Influence of Two Magnetic Ions at the A-Site with the Electronic, Magnetic, and Catalytic Properties in Gd(1–x)Dy(x)CrO(3)

[Image: see text] Considering the absence of reports dealing with the perovskite-structured orthochromites containing two A-site magnetic rare-earth ions, GdCrO(3) and progressively Dy(3+)-substituted samples of the series Gd(1–x)Dy(x)CrO(3) have been synthesized employing the epoxide-mediated sol–gel procedure. The samples were characterized extensively using high-resolution powder X-ray diffraction, thermal analysis, Fourier transform infrared, Raman, and UV–visible spectroscopies, scanning electron microscopy (SEM), and transmission electron microscopy (TEM) measurements. Monophasic samples possessing an orthorhombic perovskite structure emerged by calcining the xerogels formed by the reaction of rare-earth nitrates, chromium(III)chloride, and propylene oxide at 800 °C for 2 h. Uniform presence of wormlike morphology was observed in both the field emission SEM (FE-SEM) and TEM images of the samples. Zero-field and field-cooled magnetic measurements using a SQUID magnetometer down to 4 K showed that the Neel temperature of Gd(0.5)Dy(0.5)CrO(3) was 155 K, more or less midway between the values observed for GdCrO(3)(169 K) and DyCrO(3) (146 K). For the Gd(0.5)Dy(0.5)CrO(3) sample, a spin reorientation was observed at ∼38 K when measured under an applied field. Because the optical band gap, determined by Kubelka–Munk function, of these chromites was around 3 eV, their application as a catalyst for the photodegradation of the aqueous rhodamine-6G dye solution was demonstrated, in which the percentage of the total dye that was degraded varied with the average ionic radius of A-site ions. A similar systematic trend was observed even for the catalytic oxidation of the XO dye in the presence of H(2)O(2), with DyCrO(3) influencing the reaction to a greater extent followed by Gd(0.5)Dy(0.5)CrO(3) and GdCrO(3). Both the photocatalytic and catalytic reactions followed pseudo-first-order kinetics.