L. Väre scite author profile

Hot electron injection into aqueous electrolyte solutions from metal/insulator/metal/electrolyte and metal/insulator/electrolyte tunnel junctions is considered and the possibility of an electrochemical generation of hydrated electrons is discussed. The hot electron-induced UV electrochemiluminescence of (9-Ñuorenyl)methanol was used to demonstrate the presence of highly energetic transient species in aqueous solution at several metal/insulator/electrolyte hot electron tunnel emitters. These transient species cannot be produced electrochemically in fully aqueous solutions at any active metal electrodes. A detailed mechanism for the present electrochemiluminescence is suggested.

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Hot Electron-Induced Electrogenerated Chemiluminescence of Ru(bpy)₃²⁺ Chelate at Oxide-Covered Aluminum Electrodes

Ala-Kleme

Kulmala

Väre

et al. 1999

Anal. Chem.

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Ruthenium(II) tris-(2,2‘-bipyridine) chelate exhibits strong electrogenerated chemiluminescence during cathodic pulse polarization of oxide-covered aluminum electrodes in aqueous solutions. The present method is based on a tunnel emission of hot electrons into an aqueous electrolyte solution. The method allows the detection of ruthenium(II) tris-(2,2‘-bipyridine) and its derivatives below nanomolar concentration levels and yields linear log−log calibration plots spanning several orders of magnitude of concentration. This method allows simultaneous excitation of derivatives of ruthenium(II) tris-(2,2‘-bipyridine) and Tb(III)-chelates. The former label compounds have a luminescence lifetime of the order of microseconds, while the latter compounds generally have a luminescence lifetime of around 2 ms. Thus, the combined use of these labels easily provides the basis for two-parameter bioaffinity assays by either using wavelength or time discrimination or their combination.

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Rapid Electrochemiluminoimmunoassay of Human C-Reactive Protein at Planar Disposable Oxide-Coated Silicon Electrodes

et al. 2005

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Electrochemiluminescence (ECL) of aromatic Tb(III) chelates at thin insulating film-coated electrodes provides a means for extremely sensitive detection of Tb(III) chelates and also of biologically interesting compounds if these chelates are used as labels in bioaffinity assays. The suitability of silicon electrodes coated with thermally grown silicon dioxide film as disposable working electrodes in sensitive time-resolved ECL measurements is demonstrated, and a rapid electrochemiluminoimmunoassay (ECLIA) of human C-reactive protein (hCRP) is described. Tb(III) chelate labels can be detected almost down to picomolar level, and the calibration curve of these labels covers more than 6 orders of magnitude of chelate concentration. The calibration curve of the present immunometric hCRP assay was found to be linear over a wide range, approximately 4 orders of magnitude of hCRP concentration, the detection limit of the protein being 0.3 ng mL(-1) (mean background + 2SD) on CV values of about 10-30%, depending on the immunoassay incubation time. In the ECLIA measurements, different incubation times were tested from 15 min (giving above-mentioned performance) to as short as only 2 min, which still gave successful results with approximately 20,000 times better detection limit levels than traditional commercial assay methods. During the ECLIA process, also the Si electrode surface morphology was also investigated by atomic force microscope monitoring.

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Time-resolved electrochemiluminescence of platinum(II) coproporphyrin

Canty¹,

Väre

Håkansson³

et al. 2002

Analytica Chimica Acta

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L. Väre

Energetic electrochemiluminescence of (9-fluorenyl)methanol induced by injection of hot electrons into aqueous electrolyte solution

Hot Electron-Induced Electrogenerated Chemiluminescence of Ru(bpy)₃²⁺ Chelate at Oxide-Covered Aluminum Electrodes

Rapid Electrochemiluminoimmunoassay of Human C-Reactive Protein at Planar Disposable Oxide-Coated Silicon Electrodes

Time-resolved electrochemiluminescence of platinum(II) coproporphyrin

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L. Väre

Energetic electrochemiluminescence of (9-fluorenyl)methanol induced by injection of hot electrons into aqueous electrolyte solution

Hot Electron-Induced Electrogenerated Chemiluminescence of Ru(bpy)32+ Chelate at Oxide-Covered Aluminum Electrodes

Rapid Electrochemiluminoimmunoassay of Human C-Reactive Protein at Planar Disposable Oxide-Coated Silicon Electrodes

Time-resolved electrochemiluminescence of platinum(II) coproporphyrin

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Product

Resources

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Hot Electron-Induced Electrogenerated Chemiluminescence of Ru(bpy)₃²⁺ Chelate at Oxide-Covered Aluminum Electrodes