Titanium Dioxide (TiO2) and Silver Chloride (AgCl)-Based pH Sensor Using Spin Coating Method
Eka Maulana, Nainaufal Hidayah, Onny Setyawati
Development of thick film-based sensor using new material alternatives has not experienced significant progress, in pH sensor especially. One of the reasons is the lack of research in the field of electrochemical sensors in manufacturing pH with new materials. This research aims to develop the performance of thick film (microfabrication)-based pH sensor with spin coating method. The materials used in microfabrication included AgCl as a reference electrode, TiO2 as working electrode and Al2O3 as substrate. Sensor was fabricated using three designs with the electrode distance of 1.5, 1 and 0.5 mm. Experiment were carried out in room temperature with the observed parameters of voltage and current output of the pH sensor. These two parameters were used to calculate the sensitivity sensor. The results show that the electrode distance of 1.5, 1 and 0.5 mm revealed the sensitivity of -40.586 mV/pH, -45.229 mV/pH and -29.486 mV/pH respectively.
Status: | Published |
Published in: | International Conference on Advanced Mechatronics, Intelligent Manufacture, and Industrial Automation (ICAMIMIA 2017), 12-14 Oktober 2017, ITS, Surabaya. Scopus indexed [IEEE Xplore]. |
Link: | http://www.icamimia.org/ |