Impact of the spatial distribution of morphological pattern on the efficiency of electrocatalytic gas evolving reactions

• Main Author: Žerađanin Aleksandar R.
• Format: Article
• Language: English
• Published: Serbian Chemical Society 2014-01-01
• Series: Journal of the Serbian Chemical Society
• Subjects: energy efficiency; electrocatalysis; morphology; SECM; activity; stability
• Online Access: http://www.doiserbia.nb.rs/img/doi/0352-5139/2014/0352-51391300106Z.pdf

The efficiency of electrocatalytic gas evolving reactions (hydrogen, chlorine and oxygen evolution) is a key challenge for the important industrial processes, such as chlor-alkali electrolysis or water electrolysis. Central issue for the aforementioned electrocatalytic processes is huge power consumption. Experimental results accumulated in the past, as well as some predictive models ("volcano" plots) indicate that altering the nature of the electrode material cannot significantly increase the activity of mentioned reactions. Consequently, it is necessary to find a qualitatively different strategy for improving the energy efficiency of electrocatalytic gas evolving reactions. Usually disregarded fact is that the gas evolution is an oscillatory phenomenon. Given the oscillatory behavior, a key parameter of macrokinetics of gas electrode is the frequency of gas-bubble detachment. Bearing in mind that the gas evolution greatly depends on the surface morphology, a methodology is proposed that establishes a rational link between the morphological pattern of electrode with electrode activity and stability. Characterization was performed using advanced analytical tools. Frequency of gas-bubble detachment is obtained in the configuration of scanning electrochemical microscopy (SECM) while the corrosion stability is analyzed using miniaturized scanning flow electrochemical cell connected to the mass spectrometer (SFC-ICPMS).