[1] Z. Dai and H. Ju. Phys. Chem. Chem. Phys.,  3  (2001), pp. 3769–3773.  

[2] N.K. Chaki and K. Vijayamohanan. Biosens. Bioelectron.,  17  (2002), pp. 1–12. 

[3] S. Ferretti, S. Paynter, D.A. Russell, K.E. Sapsford and D.J. Richardson. Trends Anal. Chem.,  19  (2000), pp. 530–540. 

[4] F. Frederix, K. Bonroy, W. Laureyn, G. Reekmans, A. Campitelli, W. Dehaen and G. Maes. Langmuir,  19  (2003), pp. 4351–4357.  

[5] C.R. Suri, R. Boro, Y. Nangia, S. Gandhi, P. Sharma, N. Wangoo, K. Rajesh and G.S. Shekhawat. Trends Anal. Chem.,  28  (2009), pp. 29–39. 

[6] B. Byrne, E. Stack, N. Gilmartin and R.O. Kennedy. Sensors,  9  (2009), pp. 4407–4445.  

[7] I. Shitanda, S. Takamatsu, K. Watanabe and M. Itagaki. Electrochim. Acta,  54  (2009), pp. 4933–4936. 

[8] H. Peters, C.S. Dannert and R.D. Schmid. Mater. Sci. Eng. C,  4  (1997), pp. 227–232. 

[9] S. Lemieux and R. Carpentier. J. Photochem. Photobiol. B,  2  (1988), pp. 221–231. 

[10] S. Lemieux and R. Carpentier. Photochem. Photobiol.,  48  (1988), pp. 115–121.  

[11] C. Loranger and R. Carpentier. Biotechnol. Bioeng.,  44  (1994), pp. 178–183.  

[12] D. Laberge, J. Chartrand, R. Rouillon and R. Carpentier. Environ. Toxicol. Chem.,  18  (1999), pp. 2851–2858.  

[13] M. Koblízek, J. Masojídek, J. Komenda, T. Kucera, R. Pilloton, A.K. Mattoo and M.T. Giardi. Biotechnol. Bioeng.,  60  (1998), pp. 664–669.  

[14] F. Bettazzi, L. Laschi and M. Mascini. Anal. Chim. Acta,  589  (2007), pp. 14–21. 

[15] E. Touloupakis, L. Giannoudi, S.A. Piletsky, L. Guzzella, F. Pozzoni and M.T. Giardi. Biosens. Bioelectron.,  20  (2005), pp. 1984–1992. 

[16] M. Koblízek, J. Maly, J. Masojídek, J. Komenda, T. Kucera, M.T. Giardi, A.K. Mattoo and R. Pilloton. Biotechnol. Bioeng.,  78  (2002), pp. 110–116.  

[17] A. Tibuzzi, G. Pezzotti, T. Lavecchia, G. Rea and M.T. Giardi. Sens. Transducers,  88  (2008), p. 9.  

[18] K. Buonasera, G. Pezzotti, V. Scognamiglio, A. Tibuzzi and M.T. Giardi. J. Agric. Food Chem.,  58  (2010), pp. 5982–5990.  

[19] E.V. Piletskaya, S.A. Piletsky, T.A. Sergeyeva, A.V. El'skaya, A.A. Sozinov, J.L. Marty and R. Rouillon. Anal. Chim. Acta,  391  (1999), pp. 1–7. 

[20] K.B. Lam, E.F. Irwin, K.E. Healy and L. Lin. Sens. Actuators B: Chem.,  117  (2006), pp. 480–487. 

[21] N. Terasaki, M. Iwai, N. Yamamoto, T. Hiraga, S. Yamada and Y. Inoue. Thin Solid Films,  516  (2008), pp. 2553–2557. 

[22] J. Maly, J. Krejci, M. Ilie, L. Jakubka, J. Masojidek, R. Pilloton, K. Sameh, P. Steffan, Z. Stryhal and M. Sugiura. Anal. Bioanal. Chem.,  381  (2005), pp. 1558–1567.  

[23] S. Campuzano, M. Pedrero, C. Montemayor, E. Fatas and J.M. Pingarron. J. Electroanal. Chem.,  586  (2006), pp. 112–121. 

[24] D.A. Berthold, G.T. Babcock and C.F. Yocum. FEBS Lett.,  134  (1981), p. 231. 

[25] D.I. Arnon. Plant Physiol.,  24  (1949), pp. 1–15.  

[26] P.J. van Leeuwen, M.C. Nieveen, E.J. van de Meent, J.P. Dekker and H.J. Gorkom. Photosynth. Res.,  28  (1991), pp. 149–153.  

[27] T. Hermanson, Bioconjugate Techniques, Academic Press, San Diego, CA (1996), pp. 139–140. 

[28] V. Bhalla, X. Zhao and V. Zazubovich. J. Electoanal. Chem.,  657  (2011), pp. 84–90. 

[29] J. Shen and C.C. Liu. Sens. Actuators B: Chem.,  120  (2007), pp. 417–425. 

[30] O.A. Loaiza, S. Campuzano, M. Pedrero and J.M. Pingarron. Electroanalysis,  20  (2008), pp. 1397–1405.  

[31] C.D. Bain, E.B. Troughton, Y.Y. Tao, J. Evall, G.M. Whitesides and R.G. Nuzzo. J. Am. Chem. Soc.,  111  (1989), pp. 321–335. 

[32] V. Anandan, R. Gangadharan and G. Zhang. Sensors,  9  (2009), pp. 1295–1305.  

[33] V. Bhalla, S. Carrara, C. Stagni and B. Samorì. Thin Solid Films,  518  (2010), pp. 3360–3366. 

[34] K. Alcantara, B. Munge, Z. Pendon, H.A. Frank and J.F. Rusling. J. Am. Chem. Soc.,  128  (2006), pp. 14930–14937.  

[35] J. Maly, A. Masci, J. Masojidek, M. Sugiura and R. Pilloton. Anal. Lett.,  37  (2004), pp. 1645–1656.  

[36] S. Carrara, V. Bhalla, C. Stagni and B. Samorì. Surf. Sci.,  603  (2009), pp. 75–77. 

[37] E.J. Boekma, B. Hankamer, D. Bold, J. Kruip, J. Nield, A.F. Boonstra, J. Barber and M. Rogner. Proc. Natl. Acad. Sci. U.S.A.,  92  (1995), pp. 175–179. 

[38] A. Morrin, A. Guzman, A.J. Killard, J.M. Pingarron and M.R. Smyth. Biosens. Bioelectron.,  18  (2003), pp. 715–720. 

[39] M. Vittadello, M.Y. Gorbunov, D.T. Mastrogiovanni, L.S. Wielunski, E.L. Garfunkel, F. Guerrero, D. Kirilovsky, M. Sugiura, A.W. Rutherford, A. Safari and P.G. Falkowski. ChemSusChem,  3  (2010), pp. 474–475. 

[40] R. Ganapathy, S. Manolache, M. Sarmadi, W.J. Simonsick and F. Denes. J. Appl. Polym. Sci.,  78  (2000), pp. 1783–1796.  

[41] Z. Naal, J.H. Park, S. Bernhard, J.P. Shapleigh, C.A. Batt and H.D. Abrua. Anal. Chem.,  74  (2002), pp. 140–148.  

[42] R.D. Richins, A. Mulchandi and W. Chen. Biotechnol. Bioeng.,  69  (2000), pp. 591–596. 

[43] M. Darder, E. Casero, F. Pariente and E. Lorenzo. Anal. Chem.,  72  (2000), pp. 3784–3792.  

[44] W. Oettmeier and K. Masson. Eur. J. Biochem.,  122  (1982), pp. 163–167.  

[45] J. Lu and Z. Zhang. Anal. Chim. Acta,  318  (1996), p. 175. Article |  PDF (385 K) 

[46] G. He, H. Peng, T. Liu, M. Yang, Y. Zhang and Y. Fang. J. Mater. Chem.,  19  (2009), p. 7347.  

[47] S. Hleli, C. Martelet, A. Abdelghani, N. Burais and N. Jaffrezic-Renault. Sens. Actuators B,  113  (2006), pp. 711–717. 

[48] E. Valera, J. Ramón-Azcón, F.-J. Sanchez, M.-P. Marco and Á. Rodríguez. Sens. Actuators B,  134  (2008), pp. 95–103. 

[49] J. Přibyl, M. Hepel, J. Halamek and P. Skladal. Sens. Actuators B,  91  (2003), pp. 333–341. 

[50] C. Steegborn and P. Skladal. Biosens. Bioelectron.,  12  (1997), pp. 19–27. 

[51] C.R. Suri, J. Kaur, S. Gandhi and G.S. Shekhawat. Nanotechnology,  19  (2008), p. 235502. 

[52] R. Wilson, M.H. Barker, D.J. Schiffrin and R. Abuknesha. Biosens. Bioelectron.,  12  (1997), pp. 277–286. 

[53] J. Kaur, R.C. Boro, N. Wangoo, K. Rajesh and C.R. Suri. Anal. Chim. Acta,  607  (2008), pp. 92–98.