Investigation of Physicochemical Characteristics of Lead Dioxide Coatings to Enhance the Performance of Reserve Quickly Activated Chemical Power Sources in the Lead–Perchloric Acid–Lead Dioxide System-Reference-Cited by-同舟云学术

Investigation of Physicochemical Characteristics of Lead Dioxide Coatings to Enhance the Performance of Reserve Quickly Activated Chemical Power Sources in the Lead–Perchloric Acid–Lead Dioxide System

Published:2023-12-01 Issue:12 Volume:97 Page:1783-1793
ISSN:0044-4537
Container-title:Журнал физической химии
language:
Short-container-title:Russian Journal of Physical Chemistry

Author:

Shcheglov P. A.¹,Samsonov D. A.¹,Pavlenkov A. B.¹,Kulova T. L.²,Rychagov A. Yu.²,Andreev V. N.³,Skundin A. M.²

Affiliation:

1. Scientific and Production Association “Pribor” named after S.S. Golembiovsky

2. A.N. Frumkin Institute of Physical Chemistry and Electrochemistry, Russian Academy of Sciences

3. Investigation of Physicochemical Characteristics of Lead Dioxide Coatings to Enhance the Performance of Reserve Quickly Activated Chemical Power Sources in the Lead–Perchloric Acid–Lead Dioxide System

Abstract

The relationship between the discharge characteristics of reserve chemical power sources of the lead–perchloric acid–lead dioxide system and the physicochemical properties of electroplated cathode coatings with lead dioxide, including phase composition and microstructure, has been studied. The study reveals that the discharge characteristics of power sources can be enhanced by employing a two-layer lead dioxide coating consisting of a porous outer layer and a denser inner layer. The findings have been validated through the production and testing of industrial prototypes of pilot miniature reserve power sources, which exhibit improved performance even at low temperatures (activation time, less than 30 ms; discharge capacity, ~200 mA min/cm2; discharge voltage per cell, 1.8–1.2 V at –50°C).

Publisher

The Russian Academy of Sciences

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