Fluorophilic cobalt phthalocyanine-containing Nafion membrane: High oxygen permeability and proton conductivity in the membrane

Masami Shoji; Hiroyuki Nishide

doi:10.1002/pat.1480

Fluorophilic cobalt phthalocyanine-containing Nafion membrane: High oxygen permeability and proton conductivity in the membrane

Masami Shoji, Hiroyuki Nishide^*

^*Corresponding author for this work

Waseda Research Institute for Science and Engineering

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

12 Citations (Scopus)

Abstract

A multiply-fluorinated cobalt phthalocyanine (CoFPC) was prepared, which could reversibly interact with oxygen. CoFPC was introduced into the hydrophobic perfluoroethylene-backbone domain of the Nafion membrane. The localization of CoFPC did not reduce the high proton conductivity (10^-2-10^-3 S cm^-1) ascribed to the hydrophilic channel of Nafion. The oxygen permeability through the CoFPC/Nafion membrane was higher than the nitrogen permeability and that of the pristine Nafion membrane, and was significantly enhanced at the lower upstream pressure. The permselectivity of oxygen versus nitrogen increased beyond 20 with the CoFPC content in the membrane. The CoFPC/Nafion membrane was coated on a glassy carbon modified with a Pt/C catalyst. The high electrochemical reduction current of oxygen suggested that the CoFPC/Nafion membrane efficiently supplied oxygen to the Pt/C catalyst.

Original language	English
Pages (from-to)	646-650
Number of pages	5
Journal	Polymers for Advanced Technologies
Volume	21
Issue number	9
DOIs	https://doi.org/10.1002/pat.1480
Publication status	Published - 2010 Sept

Keywords

Air separation
Facilitated transport
Nafion
Oxygen enrichment
Phthalocyanine

ASJC Scopus subject areas

Polymers and Plastics

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10.1002/pat.1480

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title = "Fluorophilic cobalt phthalocyanine-containing Nafion membrane: High oxygen permeability and proton conductivity in the membrane",

abstract = "A multiply-fluorinated cobalt phthalocyanine (CoFPC) was prepared, which could reversibly interact with oxygen. CoFPC was introduced into the hydrophobic perfluoroethylene-backbone domain of the Nafion membrane. The localization of CoFPC did not reduce the high proton conductivity (10-2-10-3 S cm-1) ascribed to the hydrophilic channel of Nafion. The oxygen permeability through the CoFPC/Nafion membrane was higher than the nitrogen permeability and that of the pristine Nafion membrane, and was significantly enhanced at the lower upstream pressure. The permselectivity of oxygen versus nitrogen increased beyond 20 with the CoFPC content in the membrane. The CoFPC/Nafion membrane was coated on a glassy carbon modified with a Pt/C catalyst. The high electrochemical reduction current of oxygen suggested that the CoFPC/Nafion membrane efficiently supplied oxygen to the Pt/C catalyst.",

keywords = "Air separation, Facilitated transport, Nafion, Oxygen enrichment, Phthalocyanine",

author = "Masami Shoji and Hiroyuki Nishide",

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T1 - Fluorophilic cobalt phthalocyanine-containing Nafion membrane

T2 - High oxygen permeability and proton conductivity in the membrane

AU - Shoji, Masami

AU - Nishide, Hiroyuki

PY - 2010/9

Y1 - 2010/9

N2 - A multiply-fluorinated cobalt phthalocyanine (CoFPC) was prepared, which could reversibly interact with oxygen. CoFPC was introduced into the hydrophobic perfluoroethylene-backbone domain of the Nafion membrane. The localization of CoFPC did not reduce the high proton conductivity (10-2-10-3 S cm-1) ascribed to the hydrophilic channel of Nafion. The oxygen permeability through the CoFPC/Nafion membrane was higher than the nitrogen permeability and that of the pristine Nafion membrane, and was significantly enhanced at the lower upstream pressure. The permselectivity of oxygen versus nitrogen increased beyond 20 with the CoFPC content in the membrane. The CoFPC/Nafion membrane was coated on a glassy carbon modified with a Pt/C catalyst. The high electrochemical reduction current of oxygen suggested that the CoFPC/Nafion membrane efficiently supplied oxygen to the Pt/C catalyst.

AB - A multiply-fluorinated cobalt phthalocyanine (CoFPC) was prepared, which could reversibly interact with oxygen. CoFPC was introduced into the hydrophobic perfluoroethylene-backbone domain of the Nafion membrane. The localization of CoFPC did not reduce the high proton conductivity (10-2-10-3 S cm-1) ascribed to the hydrophilic channel of Nafion. The oxygen permeability through the CoFPC/Nafion membrane was higher than the nitrogen permeability and that of the pristine Nafion membrane, and was significantly enhanced at the lower upstream pressure. The permselectivity of oxygen versus nitrogen increased beyond 20 with the CoFPC content in the membrane. The CoFPC/Nafion membrane was coated on a glassy carbon modified with a Pt/C catalyst. The high electrochemical reduction current of oxygen suggested that the CoFPC/Nafion membrane efficiently supplied oxygen to the Pt/C catalyst.

KW - Air separation

KW - Facilitated transport

KW - Nafion

KW - Oxygen enrichment

KW - Phthalocyanine

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Fluorophilic cobalt phthalocyanine-containing Nafion membrane: High oxygen permeability and proton conductivity in the membrane

Abstract

Keywords

ASJC Scopus subject areas

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