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金核银壳纳米颗粒用于过氧化氢和葡萄糖比色分析OA

Colorimetric Detection of Hydrogen Peroxide and Glucose Based on Gold-Silver Core-Shell Nanoparticles

中文摘要英文摘要

以阿胶为碳源,采用微波法快速合成碳点(CDs).以CDs为还原剂、HAuCl4 为金源,制备金纳米粒子(AuNPs);以AuNPs为晶种、多巴胺(DA)为还原剂、AgNO3 为银源,在碱性条件下采用种子生长法在AuNPs表面原位生长银壳,制备金核银壳纳米颗粒(AuNPs@AgNPs).H2O2 能氧化并刻蚀AuNPs@AgNPs表面的银壳,使Ag0 氧化为Ag+,导致AuNPs@AgNPs在410 nm处的表面等离子共振吸收强度降低,并伴随着溶液颜色变化,基于此构建了用于检测H2O2 的比色传感平台.考察了合成AuNPs@AgNPs时不同浓度的NaOH、DA和AgNO3 对H2O2 检测性能的影响.在最优条件下,此传感器对H2O2 表现出优异的分析性能,检出限为0.26 μmol/L,线性范围为0.5~80 μmol/L和80~180 μmol/L.此外,基于葡萄糖在葡萄糖氧化酶作用下生成H2O2 的反应,间接实现了葡萄糖的比色分析.随着葡萄糖浓度增加,体系颜色由橙黄色逐渐变为浅粉色,葡萄糖浓度在 2~120 μmol/L和160~1000 μmol/L两段范围内与体系 410 nm处的吸光度变化量(ΔA410)均呈现良好的线性关系,检出限为0.60 μmol/L.将本方法用于人尿液中葡萄糖的检测,结果表明,尿液中的主要成分对葡萄糖测定不产生干扰,方法的特异性良好,加标回收率为 94.0%~106.8%.将AuNPs@AgNPs比色传感平台固定在琼脂中,开发了便携式凝胶测试胶条,并成功用于葡萄糖的比色分析.

Carbon dots(CDs)were synthesized through a one-step microwave-assisted treatment by using donkey-hide gelatin as carbon source.Gold nanoparticles(AuNPs)were subsequently prepared via the reduction of HAuCl4 by the as-prepared CDs,which served as a green reducing agent.Based on the reducing property of dopamine(DA),gold-silver core-shell nanoparticles(AuNPs@AgNPs)were synthesized by in situ growth of silver shell on the surface of AuNPs under alkaline conditions by a seed-growth method.The resulting AuNPs@AgNPs were successfully employed to construct a colorimetric sensing platform for detection of H2O2 and glucose.H2O2 could directly oxidize and etch gradually the silver shell of AuNPs@AgNPs,leading to a decrease in the surface plasmon resonance absorbance at 410 nm monitored by ultraviolet visible(UV-vis)detection,which was accompanied by a color change.The important experimental parameters influencing detection of H2O2 were investigated in detail,including the concentrations of AgNO3,NaOH,DA and so on.The sensor exhibited two linear response ranges for H2O2 from 0.5 to 80 μmol/L and from 80 to 180 μmol/L,with a limit of detection(LOD)of 0.26 μmol/L.H2O2 could be produced from glucose under the catalysis of glucose oxidase,therefore the sensor was also available to detect glucose,with a linear range of 2-120 and 160-1000 μmol/L and a LOD of 0.60 μmol/L.The sensor was successfully employed for glucose determination in human urine samples,yielding recoveries in the range of 94.0%-106.8%.Furthermore,the colorimetric sensing system was immobilized in agarose gels to fabricate test strips,enabling qualitative glucose analysis by the naked eye.

张源;柳鑫华;翟江丽;刘欣;张辉;唐杰;邢月;付占达;王磊;刘征原

唐山师范学院化学系,河北省可降解聚合物重点实验室,唐山市绿色专用化学品重点实验室,唐山 063000唐山师范学院化学系,河北省可降解聚合物重点实验室,唐山市绿色专用化学品重点实验室,唐山 063000唐山师范学院化学系,河北省可降解聚合物重点实验室,唐山市绿色专用化学品重点实验室,唐山 063000唐山师范学院化学系,河北省可降解聚合物重点实验室,唐山市绿色专用化学品重点实验室,唐山 063000唐山师范学院化学系,河北省可降解聚合物重点实验室,唐山市绿色专用化学品重点实验室,唐山 063000唐山师范学院化学系,河北省可降解聚合物重点实验室,唐山市绿色专用化学品重点实验室,唐山 063000唐山师范学院化学系,河北省可降解聚合物重点实验室,唐山市绿色专用化学品重点实验室,唐山 063000唐山师范学院化学系,河北省可降解聚合物重点实验室,唐山市绿色专用化学品重点实验室,唐山 063000唐山师范学院化学系,河北省可降解聚合物重点实验室,唐山市绿色专用化学品重点实验室,唐山 063000唐山师范学院化学系,河北省可降解聚合物重点实验室,唐山市绿色专用化学品重点实验室,唐山 063000

金核银壳纳米颗粒过氧化氢葡萄糖比色分析凝胶测试胶条

Gold-silver core-shell nanoparticlesHydrogen peroxideGlucoseColorimetric detectionAgarose gel test strips

《分析化学》 2026 (3)

433-442,10

河北省高等学校科学技术研究项目(Nos.ZC2022081,ZC2023159)和唐山师范学院科学研究基金项目(No.20255128052)资助. Supported by the Science and Technology Project of Hebei Education Department(Nos.ZC2022081,ZC2023159)and the Science Foundation of Tangshan Normal University(No.20255128052).

10.19756/j.issn.0253-3820.241240

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