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检测痕量纳米金的纳米催化光度法
  • ISSN号:1006-3757
  • 期刊名称:《分析测试技术与仪器》
  • 时间:0
  • 分类:O657.32[理学—分析化学;理学—化学]
  • 作者机构:[1]广西师范大学环境与资源学院,广西桂林541004, [2]桂林工学院材料与化学工程系,广西桂林541004
  • 相关基金:国家自然科学基金(No.20667001)、广西科学基金(No.0728213、0832260)和广西新世纪十百千人才基金项目.
作者: 温桂清[1], 梁爱惠[2], 廖献就[1], 蒋治良[1]
关键词: 纳米金, 纳米催化, 铜微粒, 光度法, nanogold, nanocatalysis, Cu particle, spectrophotometry
中文摘要:

在EDTA—NaOH介质中,金纳米微粒对盐酸联氨还原硫酸铜生成铜微粒这一慢反应具有较强的催化作用.铜微粒在750nm处产生一个吸收峰.随着纳米金浓度的增大,750nm处的吸光强度线性增大.对于粒径为10、30、50nm的纳米金,其线性范围、回归方程、检出限分别为0.12~1.68、0.36~2.80、1.00~5.00nmol/L,△A750nm=0.3205CAu+0.0076、△A750nm=0.2201CAu+0.0056、△A750nm=0.1150CAu+0.0066,0.05、0.20、0.50nmol/L Au.分别对0.50、1.00nmol/L纳米金(d=10nm)平行测定10次,求得其相对标准偏差分别为4.2%、3.5%.

英文摘要:

Gold nanoparticles in size of 10 nm, 30 nm and 50 nm were prepared by improved trisodium citrate reduction procedure. In media of EDTA-NaOH, nanogold exhibited strong catalytic effect on the slow particle reaction of Cu(Ⅱ) and N2H4HCl.The product of copper particles exhibited an absorption peak at 750 nm. When the concentration of nanogold increased, the absorption value at 750 nm enhanced linearly. For nanogold in size of 10,30 and 50 nm, their linear range, regress equation, detection limit are 0.12~1.68, 0.36~2.80, 1.00~5.00 nmol/L;△A750nm=0. 3205 CAu+0. 0076, △A750m=0. 2201 CAu+ 0. 0056, △A750nm=0. 1150 CAu+ 0.0066;0.05, 0.20, 0.50 nmol/L Au, respectively. The 0. 50 and 1.00 nmol/L nanogold in size of 10 nm were determined by 10 times, their relative standard deviation was 4.2% and 3.5% respectively.

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期刊信息
  • 《分析测试技术与仪器》
  • 主管单位:
  • 主办单位:中国科学院综合计划局 中国科学院兰州分院分析测试中心 中国科学院兰州化学物理研究所
  • 主编:俞惟乐
  • 地址:兰州市天水中路18号
  • 邮编:730000
  • 邮箱:FXCS@lzb.ac.cn
  • 电话:
  • 国际标准刊号:ISSN:1006-3757
  • 国内统一刊号:ISSN:62-1123/O6
  • 邮发代号:54-90
  • 获奖情况:
  • 国内外数据库收录:
  • 美国化学文摘(网络版)
  • 被引量:3730