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Medicinal Importance and Chemosensing Applications of Pyridine Derivatives: A Review
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Facile combustion synthesis of highly active Mo doped BiVO4 for photocatalytic dye degradation, photo-oxidation of alcohols, antifungal and antioxidant activities
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Biosensors Based on Bio-Functionalized Semiconducting Metal Oxides
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Physicochemical, bacteriological and water quality index assessment of hand dug well (HDW) water suitability for drinking
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Application of ecofriendly magnetic nanocomposite synthesized from natural materials for separation and determination of diazinon pesticide in real water samples
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In situ deposition of Ag nanoparticles onto PE/rGO hybrids for the dip-catalytic hydrogenation of 4-nitrophenol into 4-aminophenol
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Evaluation as time-dependent of pesticides applied in pre-harvest period of grown vegetables: removal of pesticide residues in the vegetables
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Cocaine in Different Matrices: Recent Updates on Pretreatment and Detection Techniques
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Single Entity Electrochemistry and Its Application to Nanomaterial Synthesis
Abstract
Single entity analysis is an important research topic in electrochemistry. Thus far, collisions of nanomaterials and subsequent interaction between electrodes and particles have been studied. Single entity electrochemistry exhibited inherent heterogeneity distinct from that of ensembles. By showing various current responses, single entity electrochemistry allows us to investigate the adsorbed chemical species on the electrode surface (dielectrics, hard nanoparticles, soft nanoparticles), enabling analysis of electrode-particle interaction at the nanoscale. Electrochemical analysis of soft nanoparticles enabled the detection of biological materials and was applied to the synthesis of nanoparticles to be used as electrocatalysts. It shows great promise as a synthetic method for various structures of nanoparticles by reducing metal ions volume confined emulsion nanodroplets.