共查询到19条相似文献,搜索用时 46 毫秒
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纳米ZnO作为一种功能材料,有着许多优异的性能和广泛的应用.综述了纳米ZnO传统的制备方法及其特点,并进行了对比,指出了各种制备方法的特点、存在的问题,同时还介绍了近年来合成ZnO纳米材料的一些新方法,比较了各种方法的优缺点,并对ZnO纳米材料的发展前景进行了展望. 相似文献
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水热合成法制备光催化剂氧化锌及光催化降解效果研究 总被引:1,自引:0,他引:1
采用水热合成法制备纳米氧化锌材料,并用所制备的纳米材料光催化降解罗丹明B溶液,以罗丹明B的降解率作为评价方式,考察了醋酸锌与柠檬酸的比例、无水乙醇的用量、水热反应温度和pH对氧化锌光催化性能的影响,通过正交试验优化了制备条件。运用XRD和SEM对制备的样品进行了表征。结果表明:pH对氧化锌光催化性能的影响最大,水热反应温度次之,醋酸锌与柠檬酸的比例最小;而且醋酸锌与柠檬酸的比例=2∶1,无水乙醇20mL,T=140℃时,pH=11,样品的光催化活性最高,20mg/L的罗丹明B在紫外光下降解率达90%以上。 相似文献
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许多文献报道了光催化材料的设计合成及其在环境污染防治与资源循环利用中的应用。然而,大多数光催化材料含有过渡金属离子,其浸出的环境风险限制了催化材料的应用。碳化硅作为第三代半导体材料的代表,由于不含有过渡金属离子、耐高温酸碱、稳定性强等特性使其在环境污染防治工作中具有良好的潜在应用前景。近年来,一些文献报道了碳化硅的合成、改性及其作为光催化剂在环境与资源循环利用中的应用研究,然而很少有文献综述碳化硅光催化剂的应用研究进展。针对以上现状,围绕碳化硅光催化剂合成方法、掺杂改性及应用等方面,综述了国内外近年来在碳化硅光催化领域取得的进展,并对该光催化剂体系的前景进行了展望。 相似文献
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主要研究β-环糊精(β-CD)对水热法制备氧化锌(ZnO)及其光催化性能影响,采用XRD、SEM、FTIR和UV-Vis对制备的ZnO样品进行表征,并用罗丹明B(RB)模拟印染废水,考察ZnO光催化性能。结果表明,水热环境下β-CD既可抑制ZnO晶体沿[0001]方向的生长,又可抑制ZnO晶体的团聚,ZnO晶粒逐渐变小;当β-CD浓度达到18g·L-1时,可以得到纳米刺球状ZnO,对光生电子的捕获能力较强,光催化活性比普通水热合成的ZnO提高近20%。β-CD可以作为水热法制备特殊形貌ZnO的形貌控制剂,刺球状ZnO在染料废水处理方面将具有巨大的应用价值。 相似文献
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Photocatalytic water splitting into hydrogen and oxygen is a method to directly convert light energy into storable chemical energy, and has received considerable attention for use in large-scale solar energy utilization. Particulate semiconductors are generally used as photocatalysts, and semiconductor properties such as bandgap, band positions, and photocarrier mobility can heavily impact photocatalytic performance. The design of active photocatalysts has been performed with the consideration of such semiconductor properties. Photocatalysts have a catalytic aspect in addition to a semiconductor one. The ability to control surface redox reactions in order to efficiently produce targeted reactants is also important for photocatalysts. Over the past few decades, various photocatalysts for water splitting have been developed, and a recent main concern has been the development of visible-light sensitive photocatalysts for water splitting. This review introduces the study of water-splitting photocatalysts, with a focus on recent progress in visible-light induced overall water splitting on oxynitride photocatalysts. Various strategies for designing efficient photocatalysts for water splitting are also discussed herein. 相似文献
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AbstractPhotocatalytic water splitting into hydrogen and oxygen is a method to directly convert light energy into storable chemical energy, and has received considerable attention for use in large-scale solar energy utilization. Particulate semiconductors are generally used as photocatalysts, and semiconductor properties such as bandgap, band positions, and photocarrier mobility can heavily impact photocatalytic performance. The design of active photocatalysts has been performed with the consideration of such semiconductor properties. Photocatalysts have a catalytic aspect in addition to a semiconductor one. The ability to control surface redox reactions in order to efficiently produce targeted reactants is also important for photocatalysts. Over the past few decades, various photocatalysts for water splitting have been developed, and a recent main concern has been the development of visible-light sensitive photocatalysts for water splitting. This review introduces the study of water-splitting photocatalysts, with a focus on recent progress in visible-light induced overall water splitting on oxynitride photocatalysts. Various strategies for designing efficient photocatalysts for water splitting are also discussed herein. 相似文献
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过渡金属(TM)掺杂获得铁磁性ZnO基稀磁半导体(DMSs)的报道很多,但其铁磁性是否有微量磁性TM原子团簇或第二相的贡献存在争议.从磁性测量和磁性TM原子团聚及第二相的排除两方面综述了TM掺杂ZnO DMSs本征铁磁性检证的常用方法,着重分析了元素特征分析技术在过渡金属掺杂ZnO中的应用. 相似文献