Title :
Fabrication and characterization of ZnO thin film on interdigitated electrode by sol-gel spin coating method for DNA detection
Author :
Foo, K.L. ; Wei-Wen Liu ; Hashim, U. ; Voon, C.H.
Author_Institution :
Inst. of Nano Electron. Eng. (INEE), Univ. Malaysia Perlis (UniMAP), Kangar, Malaysia
Abstract :
A transparent semiconductor ZnO thin film was prepared using sol-gel method in which ethanol was used as a solvent. Then, the thin film was deposited on interdigitated electrode. The deposited ZnO thin film was annealed in furnace at 350°C for 2 hours. The influences of surface morphologies and material properties on the ZnO thin film were investigated. The morphologies of the annealed ZnO film were examined using FESEM. XRD result shows that the ZnO thin film was close to single crystalline structure which oriented at (002) plane after annealed. The GNPs-modified ZnO thin film was further use for bio-molecular detection by immobilizing and hybridizing DNA on the GNPs-modified ZnO thin film. The hybridization of target DNA on probe DNA shows that the highest change in capacitance value was approximately 62%.
Keywords :
DNA; II-VI semiconductors; X-ray diffraction; biosensors; electrochemical electrodes; electrochemical sensors; field emission electron microscopy; nanoparticles; nanosensors; scanning electron microscopy; sol-gel processing; spin coating; surface morphology; thin film sensors; zinc compounds; (002) plane; DNA detection; FESEM; GNP-modified ZnO thin film; XRD; ZnO; ZnO thin film characterization; ZnO thin film fabrication; annealing; biomolecular detection; capacitance value; ethanol; interdigitated electrode; material properties; probe DNA; single crystalline structure; sol-gel spin coating method; solvent; surface morphologies; target DNA hybridization; temperature 350 degC; time 2 h; transparent semiconductor ZnO thin film; Capacitance; DNA; Gold; Probes; Sensors; Surface morphology; Zinc oxide;
Conference_Titel :
Biomedical Engineering and Sciences (IECBES), 2014 IEEE Conference on
DOI :
10.1109/IECBES.2014.7047548
