Data-driven reaction coordinate discovery in overdamped and non-conservative systems: application to optical matter structural isomerization
Optical matter consisting of nanoparticle constituents in solution is of key interest due to the exhibited self-assembling mechanisms. The authors propose a principal components analysis based data-driven approach to determine the collective modes of colloidal clusters mimicking optical binding used...
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2021-05-01
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Series: | Nature Communications |
Online Access: | https://doi.org/10.1038/s41467-021-22794-w |
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doaj-fa8ff8ea7a6e4814a90ca6d167119e532021-05-09T11:12:32ZengNature Publishing GroupNature Communications2041-17232021-05-0112111110.1038/s41467-021-22794-wData-driven reaction coordinate discovery in overdamped and non-conservative systems: application to optical matter structural isomerizationShiqi Chen0Curtis W. Peterson1John A. Parker2Stuart A. Rice3Andrew L. Ferguson4Norbert F. Scherer5Department of Chemistry, University of ChicagoDepartment of Chemistry, University of ChicagoJames Franck Institute, University of ChicagoDepartment of Chemistry, University of ChicagoPritzker School of Molecular Engineering, University of ChicagoDepartment of Chemistry, University of ChicagoOptical matter consisting of nanoparticle constituents in solution is of key interest due to the exhibited self-assembling mechanisms. The authors propose a principal components analysis based data-driven approach to determine the collective modes of colloidal clusters mimicking optical binding used in colloidal self-assembly.https://doi.org/10.1038/s41467-021-22794-w |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Shiqi Chen Curtis W. Peterson John A. Parker Stuart A. Rice Andrew L. Ferguson Norbert F. Scherer |
spellingShingle |
Shiqi Chen Curtis W. Peterson John A. Parker Stuart A. Rice Andrew L. Ferguson Norbert F. Scherer Data-driven reaction coordinate discovery in overdamped and non-conservative systems: application to optical matter structural isomerization Nature Communications |
author_facet |
Shiqi Chen Curtis W. Peterson John A. Parker Stuart A. Rice Andrew L. Ferguson Norbert F. Scherer |
author_sort |
Shiqi Chen |
title |
Data-driven reaction coordinate discovery in overdamped and non-conservative systems: application to optical matter structural isomerization |
title_short |
Data-driven reaction coordinate discovery in overdamped and non-conservative systems: application to optical matter structural isomerization |
title_full |
Data-driven reaction coordinate discovery in overdamped and non-conservative systems: application to optical matter structural isomerization |
title_fullStr |
Data-driven reaction coordinate discovery in overdamped and non-conservative systems: application to optical matter structural isomerization |
title_full_unstemmed |
Data-driven reaction coordinate discovery in overdamped and non-conservative systems: application to optical matter structural isomerization |
title_sort |
data-driven reaction coordinate discovery in overdamped and non-conservative systems: application to optical matter structural isomerization |
publisher |
Nature Publishing Group |
series |
Nature Communications |
issn |
2041-1723 |
publishDate |
2021-05-01 |
description |
Optical matter consisting of nanoparticle constituents in solution is of key interest due to the exhibited self-assembling mechanisms. The authors propose a principal components analysis based data-driven approach to determine the collective modes of colloidal clusters mimicking optical binding used in colloidal self-assembly. |
url |
https://doi.org/10.1038/s41467-021-22794-w |
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