A new approach for the development of lithium and proton conducting electrolyte membrane is here reported and discussed. Basically, the lithium polymer electrolyte is prepared by swelling a PVdF "precursor membrane" with a LiPF 6 solution in EC-PC. Similarly, the proton polymer electrolytes are obtained by swelling a ceramic-added composite PVdF-based membrane in a H 3PO 4 aqueous solution. The results, even if in a preliminary stage, confirm that the membrane technology used for lithium can be extended to the proton case. The PVdF-based, acid-swelled membranes show high values of ionic conductivity and good thermal properties and thus, they appear of interest for practical applications, e.g. fuel cells. © 2003 Elsevier Science Ltd. All rights reserved.
New concepts for the development of lithium and proton conducting membranes / Scrosati, Bruno; F., Ciuffa; A., D'Epifanio; Panero, Stefania. - In: ELECTROCHIMICA ACTA. - ISSN 0013-4686. - 48:14-16 SPEC.(2003), pp. 2009-2014. [10.1016/s0013-4686(03)00179-8]
New concepts for the development of lithium and proton conducting membranes
SCROSATI, Bruno;PANERO, Stefania
2003
Abstract
A new approach for the development of lithium and proton conducting electrolyte membrane is here reported and discussed. Basically, the lithium polymer electrolyte is prepared by swelling a PVdF "precursor membrane" with a LiPF 6 solution in EC-PC. Similarly, the proton polymer electrolytes are obtained by swelling a ceramic-added composite PVdF-based membrane in a H 3PO 4 aqueous solution. The results, even if in a preliminary stage, confirm that the membrane technology used for lithium can be extended to the proton case. The PVdF-based, acid-swelled membranes show high values of ionic conductivity and good thermal properties and thus, they appear of interest for practical applications, e.g. fuel cells. © 2003 Elsevier Science Ltd. All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
