Abstrak
Biosensor For Uric Acid Determination Based On The Combination Of Polypyrrole And Poly (Allylamine) Films
Aliya Nur Hasanah, Nasrul Wathoni, Aldilla Indah Refiani, Yeni Wahyuni
Universitas Padjadjaran, Journal of Young Pharmacists Vol 6 Issue 1 Jan-Mar 2014, DOI: 10.5530/jyp.2014.1.7, Website: www.jyoungpharm.org
Bahasa Inggris
Universitas Padjadjaran, Journal of Young Pharmacists Vol 6 Issue 1 Jan-Mar 2014, DOI: 10.5530/jyp.2014.1.7, Website: www.jyoungpharm.org
Biosensor, poly (allylamine), polypyrrole, uric acid
Aim and Background: The use of polypyrrole and poly(allylamine) as a matrix of biosensor has been done separately, but the combination of this two has never existed. The purpose of this research is to produce a selective biosensor using combination of polypyrrole (PPy) and poly(allylamine) (PAA) as a polymer for the immobilization of the uricase enzyme, which is used to detect uric acid level in the blood. Materials and Methods: Biosensor manufacturing process began with the electropolimerization of pyrrole on platinum wire then immobilization r turicase enzyme (UOx) with glutaraldehyde as cross-linker, After that, UOx and PAA were deposited via layer-by-layer sequential deposition up to 10 UOx layers to prepare amperometric sensors for uric acid. Biosensor proved to have a linear relationship between the current response and the increase of analyte concentrations, with a correlation coef? cient (r) = 0.992. Results and Conclusion: Presence of interferences had a little effect on uric acid analysis i.e. 1.39% glucose and1.65% ascorbic acid. The sensors could be used up to 32 times. In the stability test, 13.4% of the initial amperometric response decreased at day 33. The results showed that combination of PPy and PAA can be used as a matrix for uric acid biosensor.