Che-Tseng Lin scite author profile

A novel PVA/Hydroxyapatite (HAP) composite polymer membrane was prepared by the direct blend process and solution casting method. The characteristic properties of the PVA/HAP composite polymer membranes were investigated using thermal gravimetric analysis (TGA), X-ray diffraction (XRD), scanning electron microscopy (SEM), micro-Raman spectroscopy and the AC impedance method. An alkaline direct ethanol fuel cell, consisting of an air cathode with MnO 2 carbon inks based on Ni-foam, an anode with PtRu black on Ni-foam, and the PVA/HAP composite polymer membrane, was assembled and investigated. It was found that the alkaline direct ethanol fuel cell comprising of a novel cheap PVA/HAP composite polymer membrane showed an improved electrochemical performance in ambient temperature and air. As a result, the maximum power density of the alkaline DEFC, using a PtRu anode based on Ni-foam (10.74 mW cm -2 ), is higher than that of DEFC using an E-TEK PtRu anode based on carbon (7.56 mW cm -2 ) in an 8M KOH + 2M C 2 H 5 OH solution at ambient temperature and air. These PVA/HAP composite polymer membranes are a potential candidate for alkaline DEFC applications.

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Electrochemical performance of an air-breathing direct methanol fuel cell using poly(vinyl alcohol)/hydroxyapatite composite polymer membrane

Yang

Chiu

Lin

2008

Journal of Power Sources

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Che-Tseng Lin

Study of poly(vinyl alcohol)/titanium oxide composite polymer membranes and their application on alkaline direct alcohol fuel cell

Preparation of the PVA/HAP composite polymer membrane for alkaline DMFC application

Multifunctional co-poly(amic acid): A new binder for Si-based micro-composite anode of lithium-ion battery

Preparation of a PVA/HAP composite polymer membrane for a direct ethanol fuel cell (DEFC)

Electrochemical performance of an air-breathing direct methanol fuel cell using poly(vinyl alcohol)/hydroxyapatite composite polymer membrane

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