Authors: Coche-Guerente, L Labbe, P Mengeaud, V

Citation: L. Coche-guerente et al., Amplification of amperometric biosensor responses by electrochemical substrate recycling. 3. Theoretical and experimental study of the phenol-polyphenol oxidase system immobilized in Laponite hydrogels and layer-by-layer self-assembled structures, ANALYT CHEM, 73(14), 2001, pp. 3206-3218

Authors: Karakassides, MA Bourlinos, A Petridis, D Coche-Guerente, L Labbe, P

Citation: Ma. Karakassides et al., Synthesis and characterization of copper containing mesoporous silicas, J MAT CHEM, 10(2), 2000, pp. 403-408

Authors: Mailley, P Cosnier, S Coche-Guerente, L

Citation: P. Mailley et al., Amperometric glucose biosensors based on composite polymeric structures toprevent interferences, ANAL LETTER, 33(9), 2000, pp. 1733-1753

Authors: Coche-Guerente, L Desprez, V Diard, JP Labbe, P

Citation: L. Coche-guerente et al., Amplification of amperometric biosensor responses by electrochemical substrate recycling Part I. Theoretical treatment of the catechol-polyphenol oxidase system, J ELEC CHEM, 470(1), 1999, pp. 53-60

Authors: Coche-Guerente, L Desprez, V Labbe, P Therias, S

Citation: L. Coche-guerente et al., Amplification of amperometric biosensor responses by electrochemical substrate recycling Part II. Experimental study of the catechol-polyphenol oxidase system immobilized in a laponite clay matrix, J ELEC CHEM, 470(1), 1999, pp. 61-69

Authors: Coche-Guerente, L Desprez, V Labbe, P

Citation: L. Coche-guerente et al., Characterization of organosilasesquioxane-intercalated-laponite-clay modified electrodes and (bio)electrochemical applications, J ELEC CHEM, 458(1-2), 1998, pp. 73-86