Electrodes modified with synthetic anionic clays
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2018, Cement and Concrete ResearchCitation Excerpt :During the last two decades, the properties and applications of hybrid LDHs have been widely investigated [4–16]. Interesting results have been obtained in the field of catalysis [4–6], for the selective adsorption of pollutants [8], as hosts for nanoscale reactions or molecular containers [13], in the preparation of modified electrodes as sensors [11,12], as drug delivery systems for human health-related applications [9,10], and so on. A recent review presents the development of innovative applications for hybrid LDHs [17].
Graphene-clay-based hybrid nanostructures for electrochemical sensors and biosensors
2018, Graphene-Based Electrochemical Sensors for Biomolecules: A Volume in Micro and Nano TechnologiesRecent development of layered double hydroxide-derived catalysts − Rehydration, reconstitution, and supporting, aiming at commercial application −
2017, Applied Clay ScienceCitation Excerpt :The mixed oxides exhibited an interesting property: “memory effect” (Miyata, 1980; Sato et al., 1986, 1988; Cavani et al., 1991; Marchi and Apesteguía, 1998; Rives and Ulibarri, 1999; Allada et al., 2005), by which original layered structure was reconstituted when the mixed oxides were contacted with aqueous solution containing many different anions or even with vaporized water (Fig. 1). Interest in LDH and derived materials arises from their use in various fields: catalysts or catalyst supports, processing of selective chemical nanoreactors, separation and membrane technology, filtration, scavenging and controlled release of anions, electroactive and photoactive materials, electrodes, sensor, etc. (Cavani et al., 1991; Therias and Mousty, 1995; Monneyron et al., 1995; Guth et al., 1996; Ulibarri et al., 2001; Wang et al., 2012). Most of the applications correspond to the field of heterogeneous catalysis (Meyn et al., 1990; Cavani et al., 1991; Pinnavaia et al., 1995; Tichit and Vaccari, 1998; Vaccari, 1999; Stoica et al., 2010; Nagendrappa, 2011; Xu et al., 2011; Zhou, 2011a,b), where the choice of different metal cations make these materials rather suitable for a fine modulation of chemical composition leading to good catalytic properties.
A novel nonenzymatic electrochemical glucose sensor modified withNi/Al layered double hydroxide
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