Functional Materials for Information and Energy Technology: Insights by Photoelectron Spectroscopy

TL;DR

This paper reviews recent advances in photoelectron spectroscopy techniques that provide insights into complex condensed matter systems relevant for information and energy technologies, focusing on spintronics and electrochemical processes.

Contribution

It introduces new methodological developments in photoelectron spectroscopy for studying spintronics and in-operando electrochemical processes.

Findings

Enhanced understanding of electronic interactions in spintronics.

Improved in-operando analysis of resistive switching.

Insights into electrochemical processes in energy materials.

Abstract

The evolution of both information and energy technology is intimately connected to complex condensed matter systems, the properties of which are determined by electronic and chemical interactions and processes on a broad range of length and time scales. Dedicated photoelectron spectroscopy and spectromicroscopy experiments can provide important insights. We discuss some recent methodological developments with application to relevant questions in spintronics, and towards in-operando studies of resistive switching and electrochemical processes.