We review the characteristics and the properties of various types of gel-type, ionically conducting membranes. We have mainly investigated two classes of membranes, one characterized by lithium ion transport and the other characterized by proton conductivity. We show that the former membranes are suitable to be used as separators in advanced lithium ion plastic batteries and that the latter show good promises to be considered as alternative, new separators in polymer electrolyte fuel cells. © 2003 Elsevier B.V. All rights reserved
The research presented in this thesis focuses on developing new functional polymeric materials that ...
Blends of PVdF-HFP and ionic liquids (ILs) are interesting for application as electrolytes in plasti...
One of the main challenges that restrict the large scale application of lithium ion batteries for hi...
We review the characteristics and the properties of various types of gel-type, ionically conducting ...
We review the characteristics and the properties of various types of gel-type, ionically conducting ...
A new approach for the development of lithium and proton conducting electrolyte membrane is here rep...
This dissertation started off with a general view of thriving membrane technology in both industrial...
This dissertation started off with a general view of thriving membrane technology in both industrial...
Solid polymer electrolytes, in the form of membranes, offering high chemical and mechanical stabilit...
In this work we report the electrochemical and physical characterization of proton-conducting gels p...
Gel-type polymer electrolytes are formed by immobilizing a solution of lithium N,N-bis(trifluorometh...
Polymerized ionic liquids (PIL) are an interesting substance class, which is discussed to transfer t...
International audienceTo boost the energy density of lithium-based accumulators, two levers are comm...
This paper reviews the state-of-art of polymer electrolytes in view of their electrochemical and phy...
A new effective Gel Polymer Electrolyte membrane based on two polymers, the polyethylene oxide (PEO)...
The research presented in this thesis focuses on developing new functional polymeric materials that ...
Blends of PVdF-HFP and ionic liquids (ILs) are interesting for application as electrolytes in plasti...
One of the main challenges that restrict the large scale application of lithium ion batteries for hi...
We review the characteristics and the properties of various types of gel-type, ionically conducting ...
We review the characteristics and the properties of various types of gel-type, ionically conducting ...
A new approach for the development of lithium and proton conducting electrolyte membrane is here rep...
This dissertation started off with a general view of thriving membrane technology in both industrial...
This dissertation started off with a general view of thriving membrane technology in both industrial...
Solid polymer electrolytes, in the form of membranes, offering high chemical and mechanical stabilit...
In this work we report the electrochemical and physical characterization of proton-conducting gels p...
Gel-type polymer electrolytes are formed by immobilizing a solution of lithium N,N-bis(trifluorometh...
Polymerized ionic liquids (PIL) are an interesting substance class, which is discussed to transfer t...
International audienceTo boost the energy density of lithium-based accumulators, two levers are comm...
This paper reviews the state-of-art of polymer electrolytes in view of their electrochemical and phy...
A new effective Gel Polymer Electrolyte membrane based on two polymers, the polyethylene oxide (PEO)...
The research presented in this thesis focuses on developing new functional polymeric materials that ...
Blends of PVdF-HFP and ionic liquids (ILs) are interesting for application as electrolytes in plasti...
One of the main challenges that restrict the large scale application of lithium ion batteries for hi...
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