Applications of Thin Insulating Film-Coated Electrodes for Hot Electron Injection into Aqueous Electrolyte Solutions

KALLE, SALMINEN and PAIVI, KUOSMANEN and SAKARI, KULMALA (2015) Applications of Thin Insulating Film-Coated Electrodes for Hot Electron Injection into Aqueous Electrolyte Solutions. In: Third International Conference on Advances in Applied Science and Environmental Technology - ASET 2015, 28-29 December, 2015, Bangkok, Thailand.

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Abstract

Hot electrons can be injected into aqueous electrolyte solution from tunnel emission electrodes which are composed of a conductor coated with a thin insulating film. Conductors can be e.g. metals, or strongly doped semiconductors [1, 2]. Insulating film should be fabricated from an insulator material with a band gap of ca. 5 eV or preferably higher, and the Fermi level of the insulator should be somewhere in the mid band gap region. The hot electrons are emitted to aqueous electrolyte solution by direct field-assisted tunneling [2, 3]. After injection into the conduction band of water the hot electrons are thermalized and solvated to form hydrated electrons which finally act as reducing mediators in the Hot Electron-induced Electrochemiluminescence (HECL) systems. HECL is utilized mainly in immunoanalysis and in DNA-probe assays in which electrochemiluminescent labels are utilized [ 3 -5crp, 2, tsh]. Best labels are aromatic lanthanide chelates which allow time-resolved HECL detection [3, 6]. Best results have been obtained with silicon electrodes or silicon chips on which the working electrode/electrodes and counter electrode have been integrated [5,7]. However, a low-cost alternative is sputtered or vacuum evaporated aluminum whose surface has been thermally oxidized at room temperature in room air. Recently, we have developed printable tunnel emission electrodes for disposable plastic assay cartridges, but we are not allowed to disclose much of that research at the moment.

Item Type: Conference or Workshop Item (Paper)
Depositing User: Mr. John Steve
Date Deposited: 03 Apr 2019 11:56
Last Modified: 03 Apr 2019 11:56
URI: http://publications.theired.org/id/eprint/1123

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