通过诱导共振,利用圣珠操纵局部表面等离子体元生物合成银纳米棱镜

Waseem Bashir Vk, A. MohammedSarfiras, Sajin Kv, N. Vijayarani
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摘要

局域表面等离子体共振(LSPR)是一种处于起步阶段的现象,正在对其传感应用进行研究。随着新的创新的兴起,对环境的考虑不足,这已经在世界各地的许多世纪的工业革命中建立起来了。这项工作是为了通过生态友好的方法生产光学配置的银纳米棱镜,并作为一项寻找传统替代品的调查而开始的。以八仙叶提取物为原料,采用传统的稳定沉淀生物合成方法,简便、高效。进行了初步分析,并对银纳米颗粒的制备进行了表征。这是通过在AgNO3中混合2.5 ml提取物来实现的。观察到颜色的特征变化,从乳白色到琥珀褐色,表明银纳米颗粒的形成。在410 nm附近有一个清晰的吸光度峰,表明银纳米粒子的存在。将得到的溶液暴露在不同的光学条件下以操纵其表面等离子体,初步分析表明纳米粒子的光学和物理性质发生了明显的变化。这些纳米棱镜的特点是整个颗粒结构发生了变化,使其呈三角形、金字塔形。经过各种测试和成像处理,对这些变化进行了分析和讨论。
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Bio-synthesis of Silver Nano-prisms from Ocimum sanctum manipulation of Localised surface Plasmon through induced resonance
Localised surface Plasmon Resonance (LSPR) is a phenomenon in its starting stages that is being put through study for its sensing applications. With the rise of a new innovation comes the lack of considerations for the environment and this has been established by the many centuries of industrial revolution all around the world. This work was initiated as an attempt to produce optically configured Silver Nano-prisms through Eco-Friendly methodology and as an investigation to find an alternative to the traditional. Ocimum sanctum leaf extract was utilised for the traditional precipitation-stabilization biosynthetic method for its ease and efficiency. Preliminary analyses conducted, production of Silver Nano particles were characterised. This was achieved by mixing 2.5 ml of extract in AgNO3 to arrive at the same. A characteristic change in colour was observed towards an amber-brown from milky white to indicate the formation of silver Nano-particles. A clear absorbance peak at around 410 nm indicating the presence of silver Nano-particles . Now the resultant solution was exposed to varying optical condition to manipulate its Surface Plasmon and preliminary analyses showed obvious changes in optical and physical properties of the Nano-particles. These Nano-Prisms were characterised by a change in the entire particulate structure that gave it a triangular, pyramidal shape . These changes were analysed and discussed after various tests and imaging processes.
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