木质素磺酸钠辅助合成铋酸锂/氧化铋微球及其光催化性能

Q3 Engineering Micro and Nanosystems Pub Date : 2021-03-04 DOI:10.2174/1876402913666210304103951
C.H. Yu, Y. Mao, Z. Xue, J. Kong, H. Li, L. Pei, C. Fan, S. Tang
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引用次数: 0

摘要

有机染料在自然环境中难以降解,对环境的污染已成为一个不可避免的紧迫的全球性问题。开发高去除率、低成本的绿色废水处理技术对保护环境和人类健康至关重要。研究目的是合成具有良好光催化性能的铋酸锂/氧化铋微球,用于脱除龙胆紫(GV)。采用木质素磺酸钠辅助水热合成方法成功制备了铋酸锂/氧化铋微球。采用x射线衍射(XRD)、扫描电镜(SEM)、傅里叶变换红外光谱(FTIR)和固体紫外-可见漫反射光谱对铋酸锂/氧化铋微球进行了研究。XRD图谱和SEM观察表明,铋酸锂/氧化铋微球由立方LiBi12O18.50和单斜Bi2O3组成,直径为250 nm-1 μm。在较低的水热温度、较低的木质素磺酸钠浓度和较短的持续时间下,可形成不规则的微纳米级颗粒。随着木质素磺酸钠浓度、水热温度和持续时间的增加,不规则颗粒向微球转移。铋酸锂/氧化铋微球的能带能为1.85 eV,具有良好的可见光吸收能力。延长光照射时间和微球投加量可提高光催化去除GV的能力。10 mg铋酸锂/氧化铋微球在10 mL GV溶液中照射6 h,可以完全降解浓度为10 mg•L-1的GV溶液。在日光照射下,铋酸锂/氧化铋微球对废水中的GV表现出良好的光催化去除能力。
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Sodium Ligninsulfonate-assisted Synthesis of Lithium Bismuthate/bismuth Oxide Microspheres and Solar Light Photocatalytic Performance
Great attention has been paid to the environmental pollution by organic dyes which are difficult to be degraded in natural environment and have been an unavoidable and urgent global problem. It is essential to develop green waste water treatment technology with high removal efficiency and low cost to protect surroundings and human health. The aim of the research is to synthesize lithium bismuthate/bismuth oxide microspheres with good photocatalytic performance for the removal of gentian violet (GV). Lithium bismuthate/bismuth oxide microspheres were successfully prepared by a sodium ligninsulfonate-assisted hydrothermal synthesis route. The lithium bismuthate/bismuth oxide microspheres were investigated by X-ray diffraction (XRD), scanning electron microscopy (SEM), Fourier Transform infrared spectroscopy (FTIR) and solid UV-vis diffuse reflectance spectrum. XRD pattern and SEM observation show that the lithium bismuthate/bismuth oxide microspheres are composed of cubic LiBi12O18.50 and monoclinic Bi2O3 with the diameter of 250 nm-1 μm. Irregular microscale and nanoscale particles are formed under low hydrothermal temperature, low sodium ligninsulfonate concentration and short duration time. With increasing the sodium ligninsulfonate concentration, hydrothermal temperature and duration time, irregular particles are transferred into microspheres. Lithium bismuthate/bismuth oxide microspheres possess a band gap energy of 1.85 eV suggesting good visible light absorption ability. The photocatalytic removal ability for GV is enhanced by prolonging light irradiation time and microspheres dosage. GV solution with the concentration of 10 mg•L-1 is able to be totally degraded by 10 mg lithium bismuthate/bismuth oxide microspheres in 10 mL GV solution under solar light irradiation for 6 h. The lithium bismuthate/bismuth oxide microspheres show good photocatalytic removal ability toward GV in waste water under solar light irradiation.
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来源期刊
Micro and Nanosystems
Micro and Nanosystems Engineering-Building and Construction
CiteScore
1.60
自引率
0.00%
发文量
50
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