Add to ORKGPlatinum dissolves chemically after the formation of oxide in oxygen atmosphere, such as the cathode of polymer electrolyte fuel cells(PEFCs). Considering the platinum depositions in the membrane electrolyte of PEFCs, the solubility of platinum (oxide) in the electrolyte might be one of key issues, in order to improve the durability of PEFCs. In this study, platinum solubility has been determined in acidic medium as a function of temperature, pH, and potential which was controlled with oxygen partial pressure. The solubility was 2.9x10-6mol dm-3 at 23oC in 1mol dm-3 H2SO4 under air, and increased with temperature and with the decrease of pH. The platinum solubility significantly increased with the presence of oxygen. From these results, the...
Fuel cells have been poised to enter the energy market as a viable alternative to non-renewable reso...
Dissolution and migration of platinum due to start/stop degradation and increased cathode potential...
Proton exchange membrane fuel cells continue to be of interest for portable power and automotive app...
The stability of platinum in proton exchange membrane fuel cell (PEMFC) electrodes has been investig...
The influence of oxygen atmosphere on platinum (Pt) dissolution under potentiodynamic conditions was...
Commercial proton exchange membrane (PEM) fuel cells, various types of water electrolyzers and recen...
Pt dissolution under potentiostatic and potential cycling conditions have been investigated in a 0.5...
Platinum stability in the catalyst layer is vital to the lifetime of polymer electrolyte fuel cells....
The dissolution behavior of platinum alloy has been investigated for application in polymer electrol...
DoctorThe distribution patterns of Pt crystals that have moved from electrodes to the membrane phase...
We theoretically analyzed the formation energy and solvation free energy of Pt(II) and Pt(IV) comple...
Electrochemical dissolution of gold and platinum in 0.1 M HClO4, 0.1 M H2SO4, and 0.05 M NaOH is inv...
Dissolution of platinum catalyst is a major degradation mechanism of fuel cells but the exact reacti...
Platinum has been found to be mobile under supergene conditions, including placers and weathering pr...
Platinum (Pt) is a widely used electrocatalyst material in fuel cells and electrolysers. Proton exch...
Fuel cells have been poised to enter the energy market as a viable alternative to non-renewable reso...
Dissolution and migration of platinum due to start/stop degradation and increased cathode potential...
Proton exchange membrane fuel cells continue to be of interest for portable power and automotive app...
The stability of platinum in proton exchange membrane fuel cell (PEMFC) electrodes has been investig...
The influence of oxygen atmosphere on platinum (Pt) dissolution under potentiodynamic conditions was...
Commercial proton exchange membrane (PEM) fuel cells, various types of water electrolyzers and recen...
Pt dissolution under potentiostatic and potential cycling conditions have been investigated in a 0.5...
Platinum stability in the catalyst layer is vital to the lifetime of polymer electrolyte fuel cells....
The dissolution behavior of platinum alloy has been investigated for application in polymer electrol...
DoctorThe distribution patterns of Pt crystals that have moved from electrodes to the membrane phase...
We theoretically analyzed the formation energy and solvation free energy of Pt(II) and Pt(IV) comple...
Electrochemical dissolution of gold and platinum in 0.1 M HClO4, 0.1 M H2SO4, and 0.05 M NaOH is inv...
Dissolution of platinum catalyst is a major degradation mechanism of fuel cells but the exact reacti...
Platinum has been found to be mobile under supergene conditions, including placers and weathering pr...
Platinum (Pt) is a widely used electrocatalyst material in fuel cells and electrolysers. Proton exch...
Fuel cells have been poised to enter the energy market as a viable alternative to non-renewable reso...
Dissolution and migration of platinum due to start/stop degradation and increased cathode potential...
Proton exchange membrane fuel cells continue to be of interest for portable power and automotive app...