Read more
This thesis introduces the preparation of a series of Mg-based thin films with different structures using magnetron sputtering, as well as the systematical investigation of their gaseous and electrochemical hydrogen storage properties under mild conditions. It reviews promising applications of Mg-based thin films in smart windows, hydrogen sensors and Ni-MH batteries, while also providing significant insights into research conducted on Mg-based hydrogen storage materials, especially the Mg-based films. Moreover, the unique experimental procedures and methods (including electric resistance, optical transmittance and electrochemical methods) used in this thesis will serve as a valuable reference for researchers in the field of Mg-based hydrogen storage films.
List of contents
Introduction.- The Effects of Ti, Al Interlayers on the Hydrogen Storage Properties of 100nm Mg-Pd Films under Mild Conditions.- The Effects of Structure Tailoring on the Gaseous and Electrochemical Hydrogen Storage Properties of 500nm Mg-Pd Films under Mild Conditions.- The Effects of Morphologies on the Gaseous and Electrochemical Hydrogen Storage Properties of 200nm Mg-Pd Films.- The Effects of Different Mg-Ti Atom Ratios on the Electrochemical Hydrogen Storage Properties of Mgxti1-X-Pd Films.- Conclusions and Outlooks.
About the author
Summary
This thesis introduces the preparation of a series of Mg-based thin films with different structures using magnetron sputtering, as well as the systematical investigation of their gaseous and electrochemical hydrogen storage properties under mild conditions. It reviews promising applications of Mg-based thin films in smart windows, hydrogen sensors and Ni-MH batteries, while also providing significant insights into research conducted on Mg-based hydrogen storage materials, especially the Mg-based films. Moreover, the unique experimental procedures and methods (including electric resistance, optical transmittance and electrochemical methods) used in this thesis will serve as a valuable reference for researchers in the field of Mg-based hydrogen storage films.
