Layered double hydroxides (LDHs), also named hydrotalcite-like compounds, are anionic clays with a lamellar structure which have been extensively used in the last two decades as electrode modifiers for the design of electrochemical sensors. These materials can be classified into LDHs containing or not containing redox-active centers. In the former case, a transition metal cation undergoing a reversible redox reaction within a proper potential window is present in the layers, and, therefore, it can act as electron transfer mediator, and electrocatalyze the oxidation of an analyte for which the required overpotential is too high. In the latter case, a negatively charged species acting as a redox mediator can be introduced into the interlayer spaces after exchanging the anion coming from the synthesis, and, again, the material can display electrocatalytic properties. Alternatively, due to the large specific surface area of LDHs, molecules with electroactivity can be adsorbed on their surface. In this review, the most significant electroanalytical applications of LDHs as electrode modifiers for the development of voltammetric sensors are presented, grouping them based on the two types of materials.

Tonelli, D., Tonelli, M., Gianvittorio, S., Lesch, A. (2024). LDH-Based Voltammetric Sensors. MICROMACHINES, 15(5), 1-17 [10.3390/mi15050640].

LDH-Based Voltammetric Sensors

Tonelli, Domenica
;
Gianvittorio, Stefano;Lesch, Andreas
2024

Abstract

Layered double hydroxides (LDHs), also named hydrotalcite-like compounds, are anionic clays with a lamellar structure which have been extensively used in the last two decades as electrode modifiers for the design of electrochemical sensors. These materials can be classified into LDHs containing or not containing redox-active centers. In the former case, a transition metal cation undergoing a reversible redox reaction within a proper potential window is present in the layers, and, therefore, it can act as electron transfer mediator, and electrocatalyze the oxidation of an analyte for which the required overpotential is too high. In the latter case, a negatively charged species acting as a redox mediator can be introduced into the interlayer spaces after exchanging the anion coming from the synthesis, and, again, the material can display electrocatalytic properties. Alternatively, due to the large specific surface area of LDHs, molecules with electroactivity can be adsorbed on their surface. In this review, the most significant electroanalytical applications of LDHs as electrode modifiers for the development of voltammetric sensors are presented, grouping them based on the two types of materials.
2024
Tonelli, D., Tonelli, M., Gianvittorio, S., Lesch, A. (2024). LDH-Based Voltammetric Sensors. MICROMACHINES, 15(5), 1-17 [10.3390/mi15050640].
Tonelli, Domenica; Tonelli, Matteo; Gianvittorio, Stefano; Lesch, Andreas
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/969506
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