OPTIMIZATION OF SCREEN PRINTED REFERENCE ELECTRODE BASED ON CHARGE BALANCE AND POLY (BUTYL ACRYLATE) PHOTOCURABLE MEBRANE

S. Alva, L. Y. Heng, M. Ahmad

Abstract


This research focus on transforming the traditional design of reference electrode into all-solid-state reference electrode front-end using Ag/AgCl screen- printed electrodes. By replacing the internal reference solution of a traditional reference electrode by a solid photocurable membrane, an all-solid-state reference electrode can be achieved. The solid-state screen-printed reference electrode was designed using a photocurable acrylic film containing immobilized sodium tetrakis [3,5-bis(trifluoromethyl)phenyl] borate (NaTFPB) and trimethylocthylammonium chloride (TOMA-Cl). An optimum ratio of NaTFPB:TOMA-Cl = 1:1 produced a stable reference electrode. In the anions interference studies, all anions i.e. NO3-, Cl-, Br- and SO42- does not give effect to the SPRE except perchlorate anions. The all-solid-state reference electrodes was applied to the detection of potassium ions and ammonium ions. Validation of the all-screen-printed reference electrode was performed with reference electrode standard gel type. The validation results showed that all-solid-state screen-printed reference electrode demonstrated performance that was comparable to standard reference electrode.

Keywords


Reference Electrode; Screen Printed Electrode; Poly(Butyl Acrylate); Photocurable Membrane

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References


Anna Kisiel, Agata Michalska, Krzysztof Maksymiuk, Elisabeth A. H. Hall. All-Solid-State Reference Electrodes with Poly(n-butyl acrylate) Based Membranes. Electroanalysis.2008; 20:318 – 323.

Tymecki,L., Zwierkowska,E., & Koncki,R. 2004. Screen-printed reference electrodes for potentiometric measurements. Analytica Chimica Acta.2004; 526:3-11.

Salzitsa Anastasova, Aleksandar Radu, Giusy Matzeua, Claudio Zuliani, Ulriika Mattinenb, Johan Bobacka, Dermot Diamond. Disposable solid-contact ion-selective electrodes for environmental monitoring of lead with ppb limit-of-detection. Electrochimica Acta.2012;73: 93– 97.

Ge,S., Ge,L., Yan,M., Song,X., Yu,J., Huang,J. A Disposable Paper-Based Electrochemical Sensor with an Addressable Electrode Array for Cancer Screening, Chem. Commun.2012;48: 9397–9399

M.R.Ahmad & Sagir Alva. Durable Planar Reference Electrode. Patents.2010. WO 2010021536 A2.

M.R.Ahmad & Sagir Alva. A-Charge-Balanced Planar Reference Electrode, Patents.2010. WO 2010019026 A2.

M.R.Ahmad, Sagir Alva, Loh,K.S. Leak-Free Reference Electrode with Nano-porous Protective Membrane. Patents.2011. WO 2011053116 A2.

Jianhua.Z., Kangning.R., Yizhe,Z., Jing. S., Yihua.Z., Declan.R., Hongkai.W. Fabrication of a Microfluidic Ag/AgCl Reference Electrode and Its Application for Portable and Disposable Electrochemical Microchips. Electrophoresis.2010; 31: 3083–3089.

Derek,M. & Kenneth,T. 1978. Potentiometric Water Analysis. Chichester: John Wiley & Sons;1978.

Renata,M., Dybko,A., & Wroblewski,W. All-solid-state miniaturised planar reference electrodes based on ionics liquids. Sensors and Actuators B.2006; 115: 552-557.

Hyuk,J.L., Uk,S.H., Dong,K.L., Jae,H.S., Hakhyun,N., & Geun,S.C. Solvent-processible polymer membrane-based on liquid junction-free reference electrode. Analytical Chemistry.1998; 70: 3377-3383.

Simonis, A., Luth,H., Wang,J., & Schoning,M.J. New concepts of miniaturised reference electrodes in silicon technology for potentiometric sensor systems.Sensors and Actuators B.2004;103:429-435.

Anna,K., Agata,M. & Krzysztof ,M. Plastic reference electrodes and plastic potentiometric cells with dispersion cast poly(3,4-ethylenedioxythiophene) and poly(vinyl chloride) based membranes. Bioelectrochemistry.2007;71:75–80.

F. Xavier Rius-Ruiz.F.X.R., Nosas.D.B., Blondeau.P.,Riu.J., Rius,F.X. Planar Reference Electrode Based on Carbon Nanotubes and Polyacrylate Membrane. Anal. Chem.2011;83: 5783–5788

Lee, Y. H., Alva, S. & Musa, A. Ammonium Ion Sensor Based on Photocured and Self-Plasticising Acrylic Films for The Analysis of Sewage. Sensors and Actuators B.2004; 98: 160-165.

Lee, Y.H, Toth,K., & Hall,E.A.H. Ion-Transport and Diffusion Coefficients of Non-Plasticised Methacrylic–Acrylic Ion-Selective Membranes. Talanta.2004; 63:73-87.

Lee, Y. H. & Hall E. A. H. Assessing a Photocured Self-Plasticised Acrylic Membrane Recipe for Na+ and K+ Ion Selective Electrodes. Analytica Chimica Acta.2001; 443: 25-40.

Lee, Y. H. & Hall, E. A. H. Methacrylic-Acrylic Polymers in Ion-Selective Membranes: Achieving The Right Polymer Recipe. Analytica Chimica Acta.2000; 403: 77- 89.

Lee, Y. H. & Hall, E. A. H. Producing “Self-Plasticizing” Ion Selective Membranes. Analytical Chemistry.2000; 72: 42-51.

Bakker,E., Buhlmann,P., & Prescth,E. Polymer Membrane Ion-Selective Electrodes-What Are The Limits?. Electroanalysis.1999; 11: 915-933.

Hyo,J.Y., Jae,H.S., Sung,D.L., Hakhyun,N., Geun,S.C., Timothy,D.S., & Brown,R.B. Solid-State Ion Sensors with a Liquid Junction-Free Polymer Membrane-Based Reference Electrode For Blood Analysis. Sensors and Actuators B.2000; 64: 8-14.

Wakida,S., Yamane,M., & Hiiro,K. A Novel Urushi Matrix Chloride Ion-Selective Field Effect Transistor. Talanta.1988; 35: 326-328.

Hiroaki,S., Atsunori,H., Satoshi,S., & Isao,K. Problems Associated with The Thin-Film Ag/AgCl Reference Electrode and a Novel Structure with Improved Durability. Sensors and Actuators B.1998; 46: 104-113.

Hiroaki,S., Taishi,H., Satoshi,S., & Isao,K. Micromachined Liquid-Junction Ag/AgCl Reference Electrode. Sensors and Actuators B.1998; 46: 146-154.

Hiroaki,S., & Hisanori,S., Satoshi,S., & Isao,K. Microfabricated Liquid Junction Ag/AgCl Reference Electrode and Its Application to a One-Chip Potentiometric Sensor. Analytical Chemistry.1999; 71: 5059-5075.

Coll,C., Labrador,R.H., Manez,R.M., Soto,J., Sancenon,F., Seguia,M.J., & Sanchez,E. Ionic Liquids Promote Selective Responses Towards The Highly Hydrophilic Anion Sulfate in PVC Membrane Ion-Selective Electrodes. Chem.Comm.2005;24: 3033-3035.




DOI: http://dx.doi.org/10.22441/ijimeam.v2i1.18945

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