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NafionChemical substance
electrochemicalOrganisation
polymerBand
impedanceSoftware
hydrogenChemical substance
humidityDisease
spectroscopyBook
electrolyteChemical compound
Fuel cells are capable to exploit the combustion of hydrogen to convert chemical energy into electricity. Polymer electrolyte fuel cells based on Nafion membranes are able to work in a relatively low temperature range (70–90ºC) but require operating relative humidity (RH) close to 100%. To develop proton-exchange membranes with adequate performances at low RH, an attractive strategy consists of the incorporation of inorganic fillers into the host Nafion polymer. Here, we report on the incorporation of SnO2 nanopowders with high acidic properties as fillers in Nafion-based polymer electrolytes. Nanometre-sized sulphated SnO2 particles have been synthesised and incorporated in Nafion polymer membranes. Morphological and vibrational propertie...
The large-scale development of polymer electrolyte membrane fuel cells (PMFCs) is partly set back b...
The particular chemical structure of Nafion with nanostructured and segregated hydrophilic and hydro...
Hydrogen produced by water splitting is a promising solution for a sustainable economy from renewabl...
Fuel cells are capable to exploit the combustion of hydrogen to convert chemical energy into electri...
Nafion- and sulfonated polysulfone (SPS)- based composite membranes were prepared by incorporation o...
In this communication we present a detailed study of Nafion™ composite membranes containing differen...
An overview of the studies carried out on Nafion®-based nanocomposite membranes for application in p...
In this communication we present a detailed study of Nafion™ composite membranes containing differen...
In this communication we present a detailed study of Nafion™ composite membranes containing differen...
Nafion composite membranes, containing different amounts of mesoporous sulfated titanium oxide (TiO2...
In the research of new nanocomposite proton-conducting membranes, SnO2 ceramic powders with surface ...
In the research of new nanocomposite proton-conducting membranes, SnO2 ceramic powders with surface ...
Polymer electrolyte nanocomposite membranes were prepared by using a commercial perfluorinated sulfo...
A nanocomposite re-cast Nafion hybrid membrane containing titanium oxide calcined at T = 400 °C as a...
The nanoparticles of zirconium oxide, sulfated and phosphated zirconia were used to modify a Nafion ...
The large-scale development of polymer electrolyte membrane fuel cells (PMFCs) is partly set back b...
The particular chemical structure of Nafion with nanostructured and segregated hydrophilic and hydro...
Hydrogen produced by water splitting is a promising solution for a sustainable economy from renewabl...
Fuel cells are capable to exploit the combustion of hydrogen to convert chemical energy into electri...
Nafion- and sulfonated polysulfone (SPS)- based composite membranes were prepared by incorporation o...
In this communication we present a detailed study of Nafion™ composite membranes containing differen...
An overview of the studies carried out on Nafion®-based nanocomposite membranes for application in p...
In this communication we present a detailed study of Nafion™ composite membranes containing differen...
In this communication we present a detailed study of Nafion™ composite membranes containing differen...
Nafion composite membranes, containing different amounts of mesoporous sulfated titanium oxide (TiO2...
In the research of new nanocomposite proton-conducting membranes, SnO2 ceramic powders with surface ...
In the research of new nanocomposite proton-conducting membranes, SnO2 ceramic powders with surface ...
Polymer electrolyte nanocomposite membranes were prepared by using a commercial perfluorinated sulfo...
A nanocomposite re-cast Nafion hybrid membrane containing titanium oxide calcined at T = 400 °C as a...
The nanoparticles of zirconium oxide, sulfated and phosphated zirconia were used to modify a Nafion ...
The large-scale development of polymer electrolyte membrane fuel cells (PMFCs) is partly set back b...
The particular chemical structure of Nafion with nanostructured and segregated hydrophilic and hydro...
Hydrogen produced by water splitting is a promising solution for a sustainable economy from renewabl...
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