Using tapered interfaces to manipulate nanoscale morphologies in ion-doped block polymers

Wei Fan Kuan; Ellen H. Reed; Ngoc A. Nguyen; Michael E. Mackay; Thomas H. Epps

doi:10.1557/mrc.2015.19

Using tapered interfaces to manipulate nanoscale morphologies in ion-doped block polymers

Wei Fan Kuan
, Ellen H. Reed
, Ngoc A. Nguyen
, Michael E. Mackay
, Thomas H. Epps^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal Article › peer-review

18 Scopus citations

Abstract

We detail the influence of tapered interfaces on the nanoscale morphologies of ion-doped poly(styrene-b-oligo-oxyethylene methacrylate) block polymers (BPs). Most significantly, the location of double-gyroid network phase window was found in ion-doped normal-tapered materials, and a similar window was not detectable in the corresponding non-tapered and inverse-tapered BPs. Additionally, the effective interaction parameters, χ_eff, were reduced substantially in the tapered materials in comparison with their non-tapered counterparts. Overall, this work demonstrates that tapering between polymer blocks provides unique control over BP morphologies and improves the material processability (due to lower χ_eff), potentially facilitating the development of future ion-conducting devices.

Original language	English
Pages (from-to)	251-256
Number of pages	6
Journal	MRS Communications
Volume	5
Issue number	2
DOIs	https://doi.org/10.1557/mrc.2015.19
State	Published - 01 06 2015
Externally published	Yes

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Publisher Copyright:
Copyright © Materials Research Society 2015.

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title = "Using tapered interfaces to manipulate nanoscale morphologies in ion-doped block polymers",

abstract = "We detail the influence of tapered interfaces on the nanoscale morphologies of ion-doped poly(styrene-b-oligo-oxyethylene methacrylate) block polymers (BPs). Most significantly, the location of double-gyroid network phase window was found in ion-doped normal-tapered materials, and a similar window was not detectable in the corresponding non-tapered and inverse-tapered BPs. Additionally, the effective interaction parameters, χeff, were reduced substantially in the tapered materials in comparison with their non-tapered counterparts. Overall, this work demonstrates that tapering between polymer blocks provides unique control over BP morphologies and improves the material processability (due to lower χeff), potentially facilitating the development of future ion-conducting devices.",

author = "Kuan, \{Wei Fan\} and Reed, \{Ellen H.\} and Nguyen, \{Ngoc A.\} and Mackay, \{Michael E.\} and Epps, \{Thomas H.\}",

note = "Publisher Copyright: Copyright {\textcopyright} Materials Research Society 2015.",

year = "2015",

month = jun,

day = "1",

doi = "10.1557/mrc.2015.19",

language = "英语",

volume = "5",

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T1 - Using tapered interfaces to manipulate nanoscale morphologies in ion-doped block polymers

AU - Kuan, Wei Fan

AU - Reed, Ellen H.

AU - Nguyen, Ngoc A.

AU - Mackay, Michael E.

AU - Epps, Thomas H.

PY - 2015/6/1

Y1 - 2015/6/1

N2 - We detail the influence of tapered interfaces on the nanoscale morphologies of ion-doped poly(styrene-b-oligo-oxyethylene methacrylate) block polymers (BPs). Most significantly, the location of double-gyroid network phase window was found in ion-doped normal-tapered materials, and a similar window was not detectable in the corresponding non-tapered and inverse-tapered BPs. Additionally, the effective interaction parameters, χeff, were reduced substantially in the tapered materials in comparison with their non-tapered counterparts. Overall, this work demonstrates that tapering between polymer blocks provides unique control over BP morphologies and improves the material processability (due to lower χeff), potentially facilitating the development of future ion-conducting devices.

AB - We detail the influence of tapered interfaces on the nanoscale morphologies of ion-doped poly(styrene-b-oligo-oxyethylene methacrylate) block polymers (BPs). Most significantly, the location of double-gyroid network phase window was found in ion-doped normal-tapered materials, and a similar window was not detectable in the corresponding non-tapered and inverse-tapered BPs. Additionally, the effective interaction parameters, χeff, were reduced substantially in the tapered materials in comparison with their non-tapered counterparts. Overall, this work demonstrates that tapering between polymer blocks provides unique control over BP morphologies and improves the material processability (due to lower χeff), potentially facilitating the development of future ion-conducting devices.

UR - https://www.scopus.com/pages/publications/84946481187

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DO - 10.1557/mrc.2015.19

M3 - 文章

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SN - 2159-6859

VL - 5

SP - 251

EP - 256

JO - MRS Communications

JF - MRS Communications

IS - 2

ER -

Using tapered interfaces to manipulate nanoscale morphologies in ion-doped block polymers

Abstract

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