Artículos de revistas
Simple On-plastic/paper Inkjet-printed Solid-state Ag/agcl Pseudoreference Electrode
Registro en:
Analytical Chemistry. American Chemical Society, v. 86, n. 21, p. 10531 - 10534, 2014.
32700
10.1021/ac503029q
2-s2.0-84908577758
Autor
Da Silva E.T.S.G.
Miserere S.
Kubota L.T.
Merkoci A.
Institución
Resumen
A miniaturized, disposable, and low cost Ag/AgCl pseudoreference electrode based on inkjet printing has been developed. Silver ink was printed and chlorinated with bleach solution. The reference electrodes obtained in this work showed good reproducibility and stability during at least 30 min continuous measurement and even after 30 days storage without special care. Moreover, the strategy used in this work can be useful for large scale production of a solid-state Ag/AgCl pseudoreference electrode with different designs and sizes, facilitating the coupling with different electrical/electrochemical microsensors and biosensors. 86 21 10531 10534 Mroz, A., Borchardt, M., Diekmann, C., Cammann, K., Knoll, M., Dumschat, C., (1998) Analyst, 123, pp. 1373-1376 Wongkaew, N., Kirschbaum, S.E.K., Surareungchai, W., Durst, R.A., Baeumner, A.J., (2012) Electroanalysis, 24 (10), pp. 1903-1908 Zhou, J., Ren, K., Zheng, Y., Su, J., Zhao, Y., Ryan, D., Wu, H., (2010) Electrophoresis, 31, pp. 3083-3089 Kakiuchi, T., Yoshimatsu, T., Nishi, N., (2007) Anal. Chem., 79, pp. 7187-7191 Noh, J., Park, S., Boo, H., Kim, H.C., Chung, T.D., (2011) Lab Chip, 11, pp. 664-671 Vonau, W., Oelßner, W., Guth, U., Henze, J., (2010) Sens. Actuators, B, 144, pp. 368-373 Thomas, H., Heide, R., Terfort, A., (2012) Sens. Actuators, B, 171-172, pp. 155-164 Mousavi, Z., Granholm, K., Sokalski, T., Lewenstam, A., (2013) Analyst, 138, pp. 5216-5220 Lan, W.-J., Maxwell, E.J., Parolo, C., Bwambok, D.K., Subramaniam, A.B., Whitesides, G.M., (2013) Lab Chip, 13, pp. 4103-4108 Rattanarat, P., Dungchai, W., Cate, D., Volckens, J., Chailapakul, O., Henry, C.S., (2014) Anal. Chem., 86, pp. 3555-3562 Rivas, L., Escosura-Muñiz, A., Pons, J., Merkoçi, A., (2014) Electroanalysis, 26, pp. 1287-1294 Kamyshny, A., Steinke, J., Magdassi, S., (2011) Open Appl. Phys. J., 4, pp. 19-36 Kralovaa, M., Dzika, P., Veselya, M., Cihlar, J., (2014) Catal. Today, 230, pp. 188-196 Tang, W., Feng, L., Zhao, J., Cui, Q., Chen, S., Guo, X., (2014) J. Mater. Chem. C, 2, pp. 1995-2000 Jin, X., Lu, J., Liu, P., Tong, H., (2003) J. Electroanal. Chem., 542, pp. 85-96 Maattanen, A., Vanamo, U., Ihalainen, P., Pulkkinen, P., Tenhu, H., Bobacka, J., Peltonen, J., (2013) Sens. Actuators, B, 177, pp. 153-162 Dickinson, J.W., Bromley, M., Andrieux, F.P.L., Boxall, C., (2013) Sensors, 13, pp. 3635-3651 Ha, H., Payer, J., (2011) Electrochim. Acta, 56, pp. 2781-2791 Kim, Y.H., Sachse, C., Machala, M.L., May, C., Muller-Meskamp, L., Leo, K., (2011) Adv. Funct. Mater., 21, pp. 1076-1081 Li, J.T., Ye, F., Vaziri, S., Muhammed, M., Lemme, M.C., Ostling, M., (2013) Adv. Mater., 25, pp. 3985-3992 Sánchez, M.M., Domingo, C.M., Ramon, E., Merkoçi, A., (2014) Adv. Funct. Mater.