Poly(arylene piperidinium)s – a new class of anion-exchange membranes

Olsson, Joel; Pham, Thanh Huong; Jannasch, Patric

Poly(arylene piperidinium)s – a new class of anion-exchange membranes

Mark

Olsson, Joel ^LU ; Pham, Thanh Huong ^LU and Jannasch, Patric ^LU

(2018) Nordic Polymer Days 2018

Abstract: Anion exchange membranes (AEMs) are crucial components of various electrochemical devices. To function well they require both high chemical and mechanical robustness, as well as a sufficient hydroxide conductivity. However, due to the aggressive nature of the hydroxide ion, which causes polymer degradation, the applicability of AEMs is so far limited.1-2 As a consequence, a lot of effort is presently devoted to molecular design and exploration of new synthetic strategies to prepare alkali-stable AEMs.3-5

Herein, the synthesis and properties of poly(arylene piperidinium)s (PAPipQs) devoid of alkaline labile ether bonds and benzylic hydrogens are presented.6 An initial study of a model cation, 4,4-diphenyl-1,1-dimethylpiperidinium,... (More); Anion exchange membranes (AEMs) are crucial components of various electrochemical devices. To function well they require both high chemical and mechanical robustness, as well as a sufficient hydroxide conductivity. However, due to the aggressive nature of the hydroxide ion, which causes polymer degradation, the applicability of AEMs is so far limited.1-2 As a consequence, a lot of effort is presently devoted to molecular design and exploration of new synthetic strategies to prepare alkali-stable AEMs.3-5

Herein, the synthesis and properties of poly(arylene piperidinium)s (PAPipQs) devoid of alkaline labile ether bonds and benzylic hydrogens are presented.6 An initial study of a model cation, 4,4-diphenyl-1,1-dimethylpiperidinium, indicated excellent alkaline stability at 120 °C. In subsequent superacid catalysed polycondensations, medium molecular weight poly(arylene piperidine)s were prepared from commercially available N-methyl-4-piperidone and biphenyl or terphenyl (Scheme 1a). The resulting polymers showed glass transition temperatures at 280 °C or higher. After quaternization using different alkyl halides, mechanically robust and transparent AEMs with excellent thermal stabilities were prepared by solution casting (Scheme 1b). Evaluation of the alkaline stability of poly(terphenyl piperidinium)s by immersion in 2 M aq. NaOH at 90 °C showed that the dimethyl derivative possessed the highest alkaline stability. A mere ~5% loss of the cations was observed, with the ionic loss increasing with increasing alkyl chain length. These AEMs reached a hydroxide conductivity of 89 mS cm-1 at 80 oC in the fully hydrated state. We are currently developing synthetic strategies towards PAPipQs with reduced IEC values for improved AEM performance. (Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/1401d707-d094-4756-8c02-645f6c5eb5b9

author

Olsson, Joel ^LU ; Pham, Thanh Huong ^LU and Jannasch, Patric ^LU

organization

Centre for Analysis and Synthesis

publishing date

2018

type

Contribution to conference

publication status

published

subject

conference name

Nordic Polymer Days 2018

conference location

Copenhagen, Denmark

conference dates

2018-05-28 - 2018-05-30

language

English

LU publication?

yes

id

1401d707-d094-4756-8c02-645f6c5eb5b9

date added to LUP

2018-05-14 00:28:37

date last changed

2018-11-21 21:39:48

@misc{1401d707-d094-4756-8c02-645f6c5eb5b9,
  abstract     = {{Anion exchange membranes (AEMs) are crucial components of various electrochemical devices. To function well they require both high chemical and mechanical robustness, as well as a sufficient hydroxide conductivity. However, due to the aggressive nature of the hydroxide ion, which causes polymer degradation, the applicability of AEMs is so far limited.1-2 As a consequence, a lot of effort is presently devoted to molecular design and exploration of new synthetic strategies to prepare alkali-stable AEMs.3-5<br/><br/>Herein, the synthesis and properties of poly(arylene piperidinium)s (PAPipQs) devoid of alkaline labile ether bonds and benzylic hydrogens are presented.6 An initial study of a model cation, 4,4-diphenyl-1,1-dimethylpiperidinium, indicated excellent alkaline stability at 120 °C. In subsequent superacid catalysed polycondensations, medium molecular weight poly(arylene piperidine)s were prepared from commercially available N-methyl-4-piperidone and biphenyl or terphenyl (Scheme 1a). The resulting polymers showed glass transition temperatures at 280 °C or higher. After quaternization using different alkyl halides, mechanically robust and transparent AEMs with excellent thermal stabilities were prepared by solution casting (Scheme 1b). Evaluation of the alkaline stability of poly(terphenyl piperidinium)s by immersion in 2 M aq. NaOH at 90 °C showed that the dimethyl derivative possessed the highest alkaline stability. A mere ~5% loss of the cations was observed, with the ionic loss increasing with increasing alkyl chain length. These AEMs reached a hydroxide conductivity of 89 mS cm-1 at 80 oC in the fully hydrated state. We are currently developing synthetic strategies towards PAPipQs with reduced IEC values for improved AEM performance.}},
  author       = {{Olsson, Joel and Pham, Thanh Huong and Jannasch, Patric}},
  language     = {{eng}},
  title        = {{Poly(arylene piperidinium)s – a new class of anion-exchange membranes}},
  year         = {{2018}},
}

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Poly(arylene piperidinium)s – a new class of anion-exchange membranes