Direct visualization of hydrogen absorption dynamics in individual palladium nanoparticles

Direct visualization of hydrogen absorption dynamics in individual palladium nanoparticles

It remains unclear why energy storage systems with nanoscale constituents are less susceptible to stress-induced damage than their bulk counterparts. Here, the authors probe in real time the intercalation-driven phase transitions of nanoscale palladium hydride, finding that these nanoparticles are a...

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Main Authors: Tarun C. Narayan, Fariah Hayee, Andrea Baldi, Ai Leen Koh, Robert Sinclair, Jennifer A. Dionne
Format: Article
Language:English
Published: Nature Publishing Group 2017-01-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/ncomms14020
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spelling doaj-67b0d8f4569c461ebd5f5800a44a5a072021-05-11T07:18:40ZengNature Publishing GroupNature Communications2041-17232017-01-01811810.1038/ncomms14020Direct visualization of hydrogen absorption dynamics in individual palladium nanoparticlesTarun C. Narayan0Fariah Hayee1Andrea Baldi2Ai Leen Koh3Robert Sinclair4Jennifer A. Dionne5Department of Materials Science and Engineering, Stanford UniversityDepartment of Electrical Engineering, Stanford UniversityDepartment of Materials Science and Engineering, Stanford UniversityStanford Nano Shared Facilities, Stanford UniversityDepartment of Materials Science and Engineering, Stanford UniversityDepartment of Materials Science and Engineering, Stanford UniversityIt remains unclear why energy storage systems with nanoscale constituents are less susceptible to stress-induced damage than their bulk counterparts. Here, the authors probe in real time the intercalation-driven phase transitions of nanoscale palladium hydride, finding that these nanoparticles are able to fix crystallographic flaws as they form.https://doi.org/10.1038/ncomms14020
collection DOAJ
language English
format Article
sources DOAJ
author Tarun C. Narayan
Fariah Hayee
Andrea Baldi
Ai Leen Koh
Robert Sinclair
Jennifer A. Dionne
spellingShingle Tarun C. Narayan
Fariah Hayee
Andrea Baldi
Ai Leen Koh
Robert Sinclair
Jennifer A. Dionne
Direct visualization of hydrogen absorption dynamics in individual palladium nanoparticles
Nature Communications
author_facet Tarun C. Narayan
Fariah Hayee
Andrea Baldi
Ai Leen Koh
Robert Sinclair
Jennifer A. Dionne
author_sort Tarun C. Narayan
title Direct visualization of hydrogen absorption dynamics in individual palladium nanoparticles
title_short Direct visualization of hydrogen absorption dynamics in individual palladium nanoparticles
title_full Direct visualization of hydrogen absorption dynamics in individual palladium nanoparticles
title_fullStr Direct visualization of hydrogen absorption dynamics in individual palladium nanoparticles
title_full_unstemmed Direct visualization of hydrogen absorption dynamics in individual palladium nanoparticles
title_sort direct visualization of hydrogen absorption dynamics in individual palladium nanoparticles
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2017-01-01
description It remains unclear why energy storage systems with nanoscale constituents are less susceptible to stress-induced damage than their bulk counterparts. Here, the authors probe in real time the intercalation-driven phase transitions of nanoscale palladium hydride, finding that these nanoparticles are able to fix crystallographic flaws as they form.
url https://doi.org/10.1038/ncomms14020
work_keys_str_mv AT taruncnarayan directvisualizationofhydrogenabsorptiondynamicsinindividualpalladiumnanoparticles
AT fariahhayee directvisualizationofhydrogenabsorptiondynamicsinindividualpalladiumnanoparticles
AT andreabaldi directvisualizationofhydrogenabsorptiondynamicsinindividualpalladiumnanoparticles
AT aileenkoh directvisualizationofhydrogenabsorptiondynamicsinindividualpalladiumnanoparticles
AT robertsinclair directvisualizationofhydrogenabsorptiondynamicsinindividualpalladiumnanoparticles
AT jenniferadionne directvisualizationofhydrogenabsorptiondynamicsinindividualpalladiumnanoparticles
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