铁氧化物磁性纳米材料模拟酶的应用研究进展
发布时间:2018-08-01 19:04
【摘要】:铁氧化物磁性纳米材料过氧化物模拟酶催化活性的发现,开启了纳米材料研究的新领域。与天然酶相比,纳米材料模拟酶具有易制备、使用范围广、催化活性可调等优点。近期,各种新型铁氧化物磁性纳米材料模拟酶被制备出来并用于过氧化氢、葡萄糖、癌症标志物等检测。鉴于此,简要总结了近年来国内外磁性氧化铁纳米材料及磁性纳米复合材料模拟酶在光化学分析、电化学传感及有机污染物降解等方面的应用研究进展,并对今后可能的研究方向和要点做出展望。
[Abstract]:The discovery of the catalytic activity of iron oxide magnetic nanomaterials with peroxidase mimics opens up a new research field of nanomaterials. Compared with natural enzyme, nano-material mimic enzyme has the advantages of easy preparation, wide range of application and adjustable catalytic activity. Recently, a variety of novel iron oxide magnetic nanomaterials mimic enzymes have been prepared and used for the detection of hydrogen peroxide, glucose, cancer markers and so on. In view of this, the recent advances in the applications of magnetic iron oxide nanomaterials and magnetic nanocomposites mimic enzymes in photochemical analysis, electrochemical sensing and organic pollutant degradation were briefly summarized. The possible research direction and main points in the future are prospected.
【作者单位】: 上海第二工业大学环境与材料工程学院;
【基金】:国家自然科学基金(No.61471233) 上海市科委基础研究重点项目(No.13NM1401300) 上海市教委曙光计划(No.14SG52) 上海第二工业大学校基金(No.EGD15XQD04) 上海高校青年教师培养资助计划(No.ZZZZEGD15012) 上海市功能性材料化学重点实验室2015年度开放课题(No.SKLFMC201502)资助
【分类号】:TB383.1
[Abstract]:The discovery of the catalytic activity of iron oxide magnetic nanomaterials with peroxidase mimics opens up a new research field of nanomaterials. Compared with natural enzyme, nano-material mimic enzyme has the advantages of easy preparation, wide range of application and adjustable catalytic activity. Recently, a variety of novel iron oxide magnetic nanomaterials mimic enzymes have been prepared and used for the detection of hydrogen peroxide, glucose, cancer markers and so on. In view of this, the recent advances in the applications of magnetic iron oxide nanomaterials and magnetic nanocomposites mimic enzymes in photochemical analysis, electrochemical sensing and organic pollutant degradation were briefly summarized. The possible research direction and main points in the future are prospected.
【作者单位】: 上海第二工业大学环境与材料工程学院;
【基金】:国家自然科学基金(No.61471233) 上海市科委基础研究重点项目(No.13NM1401300) 上海市教委曙光计划(No.14SG52) 上海第二工业大学校基金(No.EGD15XQD04) 上海高校青年教师培养资助计划(No.ZZZZEGD15012) 上海市功能性材料化学重点实验室2015年度开放课题(No.SKLFMC201502)资助
【分类号】:TB383.1
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