Abstract
Because of its stable crystal structure, a boron-doped diamond (BDD) has been attracting great attention as a promising material for a next-generation electrode. For instance, the BDD is a wellknown candidate to be exploited as an electrode for the ozone generation with its longer life-time. In this study, we have evaluated ozone-generating characteristics of the BDD electrodes related to the doping concentration of boron. In the experiment, morphology of surface was observing by scanning electron microscopy (SEM) and structural-chemical properties of the synthesized diamond layers were characterized by Raman spectroscopy. Conductivity, carrier concentration, and Hall mobility were determined by a Sheet resistance measurement and Hall effect measurement performed based on the van der Pauw method. The ozone concentration in the water was measured using an ozone colorimeter with DPD reagent.
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