Revealing microscale bulk structures in polymer–carbon nanocomposites using spin-echo SANS

L.V. Tiihonen; M.P. Weir; A.J. Parnell; S.C. Boothroyd; D.W. Johnson; M. Bleuel; C.P. Duif; W.G. Bouwman; S.R. Parnell; null More Authors

doi:10.1039/D4SM00578C

Revealing microscale bulk structures in polymer–carbon nanocomposites using spin-echo SANS

L.V. Tiihonen, M.P. Weir, A.J. Parnell, S.C. Boothroyd, D.W. Johnson, M. Bleuel, C.P. Duif, W.G. Bouwman, S.R. Parnell^*, More Authors

^*Corresponding author for this work

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Abstract

We have used spin-echo small-angle neutron scattering (SESANS) to probe the hierarchy of structures present in polymer–carbon nanocomposites, with length scales spanning over three orders of magnitude, from 10 nm to 16 μm. The data processing and reduction show a unified approach across two SESANS instruments (TU Delft and Larmor at the ISIS neutron source) and yield consistent data that are able to be modelled using well-established hierarchical models in freely available software such as SasView. Using this approach, we are able to extend the measured length scales by over an order of magnitude compared to traditional scattering methods. This yields information about the structure in the bulk that is inaccessible with conventional scattering techniques (SANS/SAXS) and points to a way for interrogating and investigating polymer nanocomposites routinely across multiple length scales.

Original language	English
Pages (from-to)	8663-8674
Number of pages	12
Journal	Soft Matter
Volume	20
Issue number	43
DOIs	https://doi.org/10.1039/D4SM00578C
Publication status	Published - 2024

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10.1039/D4SM00578C

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title = "Revealing microscale bulk structures in polymer–carbon nanocomposites using spin-echo SANS",

abstract = "We have used spin-echo small-angle neutron scattering (SESANS) to probe the hierarchy of structures present in polymer–carbon nanocomposites, with length scales spanning over three orders of magnitude, from 10 nm to 16 μm. The data processing and reduction show a unified approach across two SESANS instruments (TU Delft and Larmor at the ISIS neutron source) and yield consistent data that are able to be modelled using well-established hierarchical models in freely available software such as SasView. Using this approach, we are able to extend the measured length scales by over an order of magnitude compared to traditional scattering methods. This yields information about the structure in the bulk that is inaccessible with conventional scattering techniques (SANS/SAXS) and points to a way for interrogating and investigating polymer nanocomposites routinely across multiple length scales.",

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AU - Tiihonen, L.V.

AU - Weir, M.P.

AU - Parnell, A.J.

AU - Boothroyd, S.C.

AU - Johnson, D.W.

AU - Bleuel, M.

AU - Duif, C.P.

AU - Bouwman, W.G.

AU - Parnell, S.R.

AU - More Authors, null

PY - 2024

Y1 - 2024

N2 - We have used spin-echo small-angle neutron scattering (SESANS) to probe the hierarchy of structures present in polymer–carbon nanocomposites, with length scales spanning over three orders of magnitude, from 10 nm to 16 μm. The data processing and reduction show a unified approach across two SESANS instruments (TU Delft and Larmor at the ISIS neutron source) and yield consistent data that are able to be modelled using well-established hierarchical models in freely available software such as SasView. Using this approach, we are able to extend the measured length scales by over an order of magnitude compared to traditional scattering methods. This yields information about the structure in the bulk that is inaccessible with conventional scattering techniques (SANS/SAXS) and points to a way for interrogating and investigating polymer nanocomposites routinely across multiple length scales.

AB - We have used spin-echo small-angle neutron scattering (SESANS) to probe the hierarchy of structures present in polymer–carbon nanocomposites, with length scales spanning over three orders of magnitude, from 10 nm to 16 μm. The data processing and reduction show a unified approach across two SESANS instruments (TU Delft and Larmor at the ISIS neutron source) and yield consistent data that are able to be modelled using well-established hierarchical models in freely available software such as SasView. Using this approach, we are able to extend the measured length scales by over an order of magnitude compared to traditional scattering methods. This yields information about the structure in the bulk that is inaccessible with conventional scattering techniques (SANS/SAXS) and points to a way for interrogating and investigating polymer nanocomposites routinely across multiple length scales.

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DO - 10.1039/D4SM00578C

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SP - 8663

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JO - Soft Matter

JF - Soft Matter

IS - 43

ER -

Revealing microscale bulk structures in polymer–carbon nanocomposites using spin-echo SANS

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