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Evaluation of Indium Tin Oxide Based Surface Plasmon Resonance Sensor for Near-IRApplications

Publication Type : Journal Article

Publisher : Advances in Materials Science and Engineering

Source : Advances in Materials Science and Engineering, edited by K. B. Kale, B. S. Gandhare, S. S.Kulkarni, Ed. Pune, India: Grinrey Publishing, 2021, ch. 1, pp. 1-16. ISBN: 978-81-948951-9-0

Url : https://www.grinrey.com/journals/index.php/rtm/article/view/32

Campus : Amritapuri

School : School of Physical Sciences

Department : Physics

Year : 2021

Abstract : Surface plasmon resonance (SPR) based optical biosensors hold strong potential for high-speed detection of changes in optical properties resulting from the alteration of the chemical or biochemical composition of the analyte. Traditionally, noble metals have been investigated for such plasmonic properties, while alternative materials like metal oxides have recently attracted attention for the potential to be tuned for applications in different spectral regions. This chapter addresses the design of a highly sensitive biosensor based on a conducting oxide, indium tin oxide (ITO), for sensing in the near infra-red (NIR) range, up to wavelengths as low as the ones used in telecommunications (~1.55 µm). The analysis of the sensor performance leads us to introduce a new performance parameter, the comprehensive signal quality factor of the SPR curve, which is valuable to assess the quality of sensing. Our results also demonstrate the effectiveness of rf-magnetron sputtered ITO material, which has been less explored in literature for plasmonic applications.

Cite this Research Publication : Anjitha M, N. Nair, V. T. Babu, Nishi G. N, Athulya S, Sharika E, T. Ahmed, M. K. Das, R. Rizzoli, C. Summonteand S. K. Ram, Evaluation of Indium Tin Oxide Based Surface Plasmon Resonance Sensor for Near-IRApplications, in Advances in Materials Science and Engineering, edited by K. B. Kale, B. S. Gandhare, S. S.Kulkarni, Ed. Pune, India: Grinrey Publishing, 2021, ch. 1, pp. 1-16.
ISBN: 978-81-948951-9-0

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