Comparative study of Ag and Au nanoparticles biosensors based on surface plasmon resonance phenomenon

Materials Science & Engineering. C, Materials for Biological Applications
M Lismont, L Dreesen

Abstract

The specific sensitivity of surface plasmon resonance to changes in the local environment of nanoparticles allows their use as platforms to probe chemical and biochemical binding events on their surfaces without any labeling [1-4]. In this paper, we perform a comparative study of gold and silver nanoparticle based biosensors, prepared within the same conditions, in order to determine which metal seems the best for biological sensing. The prototypical biocytin-avidin interaction is used to study gradual changes over time and with avidin concentration in the absorption spectra bands of biocytinylated 10 nm silver and gold nanospheres. First, the Ag nanoparticles plasmon resonance absorbance signal is about 10 times larger than the Au one. Secondly, for an equivalent concentration of avidin, the optical property modifications are more pronounced for silver nanoparticles than for gold ones of the same geometry. These observations attest the superiority of Ag on Au nanoparticles when optical considerations are only taken into account. Finally, with both biosensors, the specificity of the interaction, checked by replacing avidin with bovine serum albumin, is relatively poor and needs to be improved.

Citations

Dec 26, 2013·Biosensors & Bioelectronics·Jeevan ThavanathanKwai Lin Thong
Aug 8, 2015·Materials Science & Engineering. C, Materials for Biological Applications·M Montazer, Z Komeily Nia
Aug 31, 2016·Topics in Current Chemistry·Anita R KongorVinod K Jain
Jun 22, 2013·Langmuir : the ACS Journal of Surfaces and Colloids·Candace Rae WalkerKaushal Rege
Jun 13, 2019·Biosensors·Alexis LoiseauSouhir Boujday
Mar 2, 2017·Journal of the Optical Society of America. A, Optics, Image Science, and Vision·Yurii N Barabanenkov, Mikhail Yu Barabanenkov

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