%0 Conference Paper
%A Adam, H.
%A Gopinath, S.C.B.
%A Arshad, M.K.M.
%A Fakhri, M.A.
%A Salim, E.T.
%A Perumal, V.
%A Gunny, A.A.N.
%A Adam, T.
%D 2023
%F scholars:18976
%K Alumina; Aluminum oxide; Biocompatibility; Biosensors; Electric fields; Electrodes; Electrolytes; Gold compounds; II-VI semiconductors; Nanocomposites; Nanorods; Silicon oxides, Aluminium electrode; Biosensing; COMSOL multiphysic; Gold nanorod; Inter-digitated electrodes; Interdigitated aluminum electrode; Interdigitated electrodes; Multi-physics; Silicon oxide: zinc oxide; Zinc oxide nanocomposites, Zinc oxide
%P 208-211
%R 10.1109/SENNANO57767.2023.10352522
%T Simulations on Aluminum Interdigitated Electrode with Gold nanorod-Zinc Oxide Nanocomposite for Impedance-based Biosensing
%U https://khub.utp.edu.my/scholars/18976/
%X this study used COMSOL software to design biosensors with higher sensitivity and accuracy. The software allowed simulations of the sensor's behavior in an electrolyte, providing insights into electric field distribution and optimizing electrode design. The study also simulated properties like electrical conductivity, thermal conductivity, density, permittivity, and permeability. The use of nanocomposites like aluminum oxide, gold nanorods, and zinc oxide further enhanced the performance, improving sensitivity and biocompatibility of the biosensors. © 2023 IEEE.
%Z cited By 0; Conference of 2023 IEEE International Conference on Sensors and Nanotechnology, SENNANO 2023 ; Conference Date: 26 September 2023 Through 27 September 2023; Conference Code:195657