1 |
Fabrication of Cu2O/TiO2/sepiolite electrode for effectively detecting of H2O2 Yan P, Zhong LF, Wen X, Tang AD Journal of Electroanalytical Chemistry, 827, 1, 2018 |
2 |
Structural characterization of hexadecyltrimethylammonium-smectite composites and their potentiometric electrode applications Cubuk O, Caglar B, Topcu C, Coldur F, Sarp G, Tabak A, Sahin E Applied Surface Science, 338, 99, 2015 |
3 |
Tris(1,10-phenanthroline)iron(II)-bentonite film as efficient electrochemical sensing platform for nitrite determination Azad UP, Turllapati S, Rastogi PK, Ganesan V Electrochimica Acta, 127, 193, 2014 |
4 |
H2O2 determination at iron-rich clay modified electrodes Charradi K, Gondran C, Amara AB, Prevot V, Mousty C Electrochimica Acta, 54(17), 4237, 2009 |
5 |
Electrochemical behavior of phenol in alkaline media at hydrotalcite-like clay/anionic surfactants/glassy carbon modified electrode Fernandez L, Borras C, Carrero H Electrochimica Acta, 52(3), 872, 2006 |
6 |
Direct electrochemistry and enzymatic activity of bacterial polyhemic cytochrome c(3) incorporated in clay films Lojou E, Gludici-Orticoni MT, Bianco P Journal of Electroanalytical Chemistry, 579(2), 199, 2005 |
7 |
Al-pillared acid-activated montmorillonite modified electrodes Falaras P, Lezou F, Pomonis P, Ladavos A Journal of Electroanalytical Chemistry, 486(2), 156, 2000 |
8 |
Electrochemical behavior of c-type cytochromes at clay-modified carbon electrodes: a model for the interaction between proteins and soils Sallez Y, Bianco P, Lojou E Journal of Electroanalytical Chemistry, 493(1-2), 37, 2000 |