钴沉淀铋钴铁氧体的光催化性能

JIF Jurnal Ilmu Fisika Pub Date : 2022-08-30 DOI:10.25077/jif.14.2.116-123.2022

Abi Catur Saputri, Nurdiyantoro Putra Prasetya, U. Utari, B. Purnama

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引用次数: 0

摘要

本文研究了铋取代钴铁氧体纳米粒子的光催化性能。采用共沉淀法和低温退火处理合成了铋钴铁氧体。表征结果表明，XRD图谱与ICDD 221086一致。铋钴铁氧体的晶粒尺寸随着退火温度的升高而增大。FTIR结果证实了在570/cm和475/cm附近的数波处的可用金属氧化物，这是由于钴铁氧体而出现的八面体和四面体位置。通过改变催化剂质量和紫外线照射时间来进行光催化剂试验。吸收光谱随着催化剂质量的增加而减小。紫外线照射时间的增加导致更多的空穴（h+）和电子（e-）的形成。从而发生氢氧化物反应，产生自由基。该研究结果表明，钴铁氧体基纳米颗粒具有作为光催化剂材料的潜力。

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Photocatalytic Properties of Co-precipitated Bismuth Cobalt Ferrite

Bismuth substituted cobalt ferrite nanoparticle is studied for photocatalytic in this paper. Bismuth cobalt ferrite has been synthesized by the coprecipitation method and low-temperature annealing treatment. The characterization results showed that the XRD spectral pattern is consistent with ICDD 221086. The crystallite size of bismuth cobalt ferrite increases with increasing annealing temperature. FTIR results confirm the available metal-oxide at number wave around 570/cm and 475/cm which is the appearance of octahedral and tetrahedral sites owing cobalt ferrite. The photocatalyst test was carried out by varying the catalyst mass and UV irradiation time. The absorption spectrum decreases with increasing catalyst mass. The increase in UV irradiation time causes the formation of more holes (h+) and electrons (e-). So that the hydroxide reaction occurs that produces free radicals. The results of this study indicate that cobalt ferrite-based nanoparticles have potential as photocatalyst materials.

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JIF Jurnal Ilmu Fisika

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6 weeks