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Liquid-phase mega-electron-volt ultrafast electron diffraction

J. Pedro F. Nunes, Kathryn Ledbetter, Ming‐Fu Lin, M. Kozina, Daniel P. DePonte, Elisa Biasin, Martin Centurion, Christopher J. Crissman, M. Dunning, Serge Guillet, K. Jobe, Yusong Liu, Mianzhen Mo, Xiaozhe Shen, Robert E. Sublett, Stephen Weathersby, Charles Yoneda, Thomas Wolf, Jie Yang, Amy A. Cordones, Xijie Wang

2020Structural Dynamics52 citationsDOIOpen Access PDF

Abstract

The conversion of light into usable chemical and mechanical energy is pivotal to several biological and chemical processes, many of which occur in solution. To understand the structure–function relationships mediating these processes, a technique with high spatial and temporal resolutions is required. Here, we report on the design and commissioning of a liquid-phase mega-electron-volt (MeV) ultrafast electron diffraction instrument for the study of structural dynamics in solution. Limitations posed by the shallow penetration depth of electrons and the resulting information loss due to multiple scattering and the technical challenge of delivering liquids to vacuum were overcome through the use of MeV electrons and a gas-accelerated thin liquid sheet jet. To demonstrate the capabilities of this instrument, the structure of water and its network were resolved up to the 3rd hydration shell with a spatial resolution of 0.6 Å; preliminary time-resolved experiments demonstrated a temporal resolution of 200 fs.

Topics & Concepts

ElectronTemporal resolutionDiffractionElectron diffractionUltrafast electron diffractionUltrashort pulseReflection high-energy electron diffractionMaterials scienceScatteringOpticsAtomic physicsLaserPhysicsNuclear physicsAdvanced Electron Microscopy Techniques and ApplicationsElectron and X-Ray Spectroscopy TechniquesSpectroscopy and Quantum Chemical Studies
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