Prospects for Vibrational-Mode EELS with High Spatial Resolution

R.F. Egerton

doi:10.1017/s1431927613014013

What is it about?

Improvements in the energy resolution of electron energy-loss spectroscopy make it possible to detect vibrational (phonon) modes of inelastic scattering, with a spatial resolution determined by the delocalization of the scattering.

Why is it important?

Distinguishing chemical bonds with high spatial resolution provides important information about the molecular or atomic structure of a material.

Perspectives

The article predicts that the vibrational signal will be dominated by dipole scattering and have a spatial resolution limited by the delocalization of the scattering and by radiation damage.
Professor Ray F Egerton
University of Alberta

This page is a summary of: Prospects for Vibrational-Mode EELS with High Spatial Resolution, Microscopy and Microanalysis, February 2014, Oxford University Press (OUP),
DOI: 10.1017/s1431927613014013.
You can read the full text:

Read

Contributors

The following have contributed to this page

Professor Ray F Egerton
University of Alberta

TEM-EELS now has the ability to characterize chemical bonds

What is it about?

Why is it important?

Perspectives

Contributors

Discover more

Medical Research

Life Sciences

Physical Sciences

Technology and Engineering

Environmental Research

Arts and Humanities

Social Sciences

Business and Management

TEM-EELS now has the ability to characterize chemical bonds

What is it about?

Featured Image

Why is it important?

Perspectives

Read the Original

Contributors

Share this page:

Discover more

Medical Research

Life Sciences

Physical Sciences

Technology and Engineering

Environmental Research

Arts and Humanities

Social Sciences

Business and Management