Abstract

Abstract The concentration of molecular hydrogen in the vicinity of the bright platinum cathode during electrolysis was determined as a function of current density by means of two different methods, the potential-time curve on the reversal of current from cathodic to anodic, and the concentration overpotential obtained by extrapolating the decay curve of the overpotential to zero time, free from other overpotentials. The agreement between the results for the concentration derived from the potential-time curve and from the concentration overpotential was satisfactory. It was found that the concentration of hydrogen increased with the increasing ik value and approached a limiting value of 11.6×10−2 mol./l. for cathodic currents exceeding about ik=300 mamp./cm2.

Full Text
Paper version not known

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Formulation of the CBC-Model for Modelling the Contaminants and Footprints in Natural Attenuation of BTEX
Max Maurer ... Bruce E Rittmann
Biodegradation | VOL. 15
Max Maurer, et. al.Max Maurer ... Bruce E Rittmann
01 Dec 2004
Influence of Bubbles on the Energy Conversion Efficiency of Electrochemical Reactors
Andrea Angulo ... David Fernández Rivas
Joule | VOL. 4
Andrea Angulo, et. al.Andrea Angulo ... David Fernández Rivas
03 Feb 2020
Effect of air on the concentration of molecular hydrogen in the conversion of ethanol by a nonequilibrium gas-discharge plasma
A I Shchedrin ... V V Yukhimenko
Jetp Letters | VOL. 88
A I Shchedrin, et. al.A I Shchedrin ... V V Yukhimenko
01 Sep 2008
First-principles investigations of proton generation in α-quartz**Project supported by the Science Challenge Project, China (Grant No. TZ2016003-1-105), CAEP Microsystem and THz Science and Technology Foundation, China (Grant No. CAEPMT201501), the National Natural Science Foundation China (Grant No. NSFC 11404300), and the National Basic Research Program of China (Grant No. 2011CB606405).
Yunliang Yue ... Xu Zuo
Chinese Physics B | VOL. 27
Yunliang Yue, et. al.Yunliang Yue ... Xu Zuo
11 Feb 2018
View more papers

More From: Bulletin of the Chemical Society of Japan

Paper Title
Journal
Date
Author
Development of organic photoreactions utilizing the characteristics of elements with low electronegativity
Yuki Nagashima
Bulletin of the Chemical Society of Japan | VOL. 97
Yuki NagashimaYuki Nagashima
31 Jul 2024
Catalytic Combustion of Toluene over Co3O4 loaded on ZrSn1−xFexO4−δ
Naoyoshi Nunotani ... Nobuhito Imanaka
Bulletin of the Chemical Society of Japan | VOL. -
Naoyoshi Nunotani, et. al.Naoyoshi Nunotani ... Nobuhito Imanaka
26 Jul 2024
The activity of thermostable NiO/CeO2 heterointerface structure toward low-temperature catalytic CO–NO reaction
Zannatul Mumtarin Moushumy ... Masato Machida
Bulletin of the Chemical Society of Japan | VOL. -
Zannatul Mumtarin Moushumy, et. al.Zannatul Mumtarin Moushumy ... Masato Machida
22 Jul 2024
A Layered Titanate Nanowire Helps Pt/TiO2 Photocatalyst for Solar Hydrogen Evolution from Water with High Quantum Efficiency
Rafat Tahawy ... Yusuke Ide
Bulletin of the Chemical Society of Japan | VOL. -
Rafat Tahawy, et. al.Rafat Tahawy ... Yusuke Ide
16 Jul 2024
View more papers