Synthesis and characterization of single-ion graft copolymer electrolytes

Patrick E. Trapa; Metin H. Acar; Donald R. Sadoway; Anne M. Mayes

doi:10.1149/1.2073089

Synthesis and characterization of single-ion graft copolymer electrolytes

Patrick E. Trapa^*
, Metin H. Acar
, Donald R. Sadoway
, Anne M. Mayes

^*Bu çalışma için yazışmadan sorumlu yazar

Kimya Bölümü

Massachusetts Institute of Technology
The Electrochemical Society

Araştırma sonucu: Dergiye katkı › Makale › bilirkişi

36 Atıf (Scopus)

Özet

A microphase-separating single-ion conductor, poly[(oxyethylene) ₉ methacrylate-ran-lithium methacrylate]-graft-poly(dimethyl siloxane), P(OEM-r-LiMA)-g-PDMS, was prepared by lithiating a precursor polymer synthesized by free radical methods using commercially available macromonomers. This material possessed a low conductivity, stemming from high ion-pairing interactions that severely restricted the number of charge carriers available for conduction. Subsequent conversion of the LiMA units via the addition of BF ₃, a Lewis acid, resulted in a 2 orders-of-magnitude rise in conductivity, a gain that could be attributed to a large increase in the number of mobile cations. By blending this material with uncharged POEM-g-PDMS, the room-temperature conductivity was optimized to 7 × 10 _-6 S/cm. With a lithium transference number of unity, these materials exhibit higher dc-measured conductivities at elevated currents than their salt-doped counterparts and are electrochemically stable to ∼4.5 V.

Orijinal dil	İngilizce
Sayfa (başlangıç-bitiş)	A2281-A2284
Dergi	Journal of the Electrochemical Society
Hacim	152
Basın numarası	12
DOI'lar	https://doi.org/10.1149/1.2073089
Yayın durumu	Yayınlandı - 2005

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10.1149/1.2073089

Diğer Dosyalar ve Linkler

Link to publication in Scopus

Alıntı Yap

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title = "Synthesis and characterization of single-ion graft copolymer electrolytes",

abstract = "A microphase-separating single-ion conductor, poly[(oxyethylene) 9 methacrylate-ran-lithium methacrylate]-graft-poly(dimethyl siloxane), P(OEM-r-LiMA)-g-PDMS, was prepared by lithiating a precursor polymer synthesized by free radical methods using commercially available macromonomers. This material possessed a low conductivity, stemming from high ion-pairing interactions that severely restricted the number of charge carriers available for conduction. Subsequent conversion of the LiMA units via the addition of BF 3, a Lewis acid, resulted in a 2 orders-of-magnitude rise in conductivity, a gain that could be attributed to a large increase in the number of mobile cations. By blending this material with uncharged POEM-g-PDMS, the room-temperature conductivity was optimized to 7 × 10 -6 S/cm. With a lithium transference number of unity, these materials exhibit higher dc-measured conductivities at elevated currents than their salt-doped counterparts and are electrochemically stable to ∼4.5 V.",

author = "Trapa, \{Patrick E.\} and Acar, \{Metin H.\} and Sadoway, \{Donald R.\} and Mayes, \{Anne M.\}",

year = "2005",

doi = "10.1149/1.2073089",

language = "English",

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T1 - Synthesis and characterization of single-ion graft copolymer electrolytes

AU - Trapa, Patrick E.

AU - Acar, Metin H.

AU - Sadoway, Donald R.

AU - Mayes, Anne M.

PY - 2005

Y1 - 2005

N2 - A microphase-separating single-ion conductor, poly[(oxyethylene) 9 methacrylate-ran-lithium methacrylate]-graft-poly(dimethyl siloxane), P(OEM-r-LiMA)-g-PDMS, was prepared by lithiating a precursor polymer synthesized by free radical methods using commercially available macromonomers. This material possessed a low conductivity, stemming from high ion-pairing interactions that severely restricted the number of charge carriers available for conduction. Subsequent conversion of the LiMA units via the addition of BF 3, a Lewis acid, resulted in a 2 orders-of-magnitude rise in conductivity, a gain that could be attributed to a large increase in the number of mobile cations. By blending this material with uncharged POEM-g-PDMS, the room-temperature conductivity was optimized to 7 × 10 -6 S/cm. With a lithium transference number of unity, these materials exhibit higher dc-measured conductivities at elevated currents than their salt-doped counterparts and are electrochemically stable to ∼4.5 V.

AB - A microphase-separating single-ion conductor, poly[(oxyethylene) 9 methacrylate-ran-lithium methacrylate]-graft-poly(dimethyl siloxane), P(OEM-r-LiMA)-g-PDMS, was prepared by lithiating a precursor polymer synthesized by free radical methods using commercially available macromonomers. This material possessed a low conductivity, stemming from high ion-pairing interactions that severely restricted the number of charge carriers available for conduction. Subsequent conversion of the LiMA units via the addition of BF 3, a Lewis acid, resulted in a 2 orders-of-magnitude rise in conductivity, a gain that could be attributed to a large increase in the number of mobile cations. By blending this material with uncharged POEM-g-PDMS, the room-temperature conductivity was optimized to 7 × 10 -6 S/cm. With a lithium transference number of unity, these materials exhibit higher dc-measured conductivities at elevated currents than their salt-doped counterparts and are electrochemically stable to ∼4.5 V.

UR - https://www.scopus.com/pages/publications/30344472739

U2 - 10.1149/1.2073089

DO - 10.1149/1.2073089

M3 - Article

AN - SCOPUS:30344472739

SN - 0013-4651

VL - 152

SP - A2281-A2284

JO - Journal of the Electrochemical Society

JF - Journal of the Electrochemical Society

IS - 12

ER -

Synthesis and characterization of single-ion graft copolymer electrolytes

Özet

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