Klaus-Dieter Kreuer
Title
Cited by
Cited by
Year
On the development of proton conducting polymer membranes for hydrogen and methanol fuel cells
KD Kreuer
Journal of membrane science 185 (1), 29-39, 2001
32762001
Proton conductivity: materials and applications
KD Kreuer
Chemistry of materials 8 (3), 610-641, 1996
24341996
Transport in proton conductors for fuel-cell applications: simulations, elementary reactions, and phenomenology
KD Kreuer, SJ Paddison, E Spohr, M Schuster
Chemical reviews 104 (10), 4637-4678, 2004
21432004
Proton-conducting oxides
KD Kreuer
Annual Review of Materials Research 33 (1), 333-359, 2003
21142003
On the development of proton conducting materials for technological applications
KD Kreuer
Solid state ionics 97 (1-4), 1-15, 1997
13091997
Aspects of the formation and mobility of protonic charge carriers and the stability of perovskite-type oxides
KD Kreuer
Solid State Ionics 125 (1-4), 285-302, 1999
9501999
Imidazole and pyrazole-based proton conducting polymers and liquids
KD Kreuer, A Fuchs, M Ise, M Spaeth, J Maier
Electrochimica Acta 43 (10-11), 1281-1288, 1998
6901998
Vehicle mechanism, a new model for the interpretation of the conductivity of fast proton conductors
KD Kreuer, A Rabenau, W Weppner
Angewandte Chemie International Edition in English 21 (3), 208-209, 1982
6531982
Proton conducting alkaline earth zirconates and titanates for high drain electrochemical applications
KD Kreuer, W Münch, A Fuchs, U Klock, J Maier
Solid State Ionics 145 (1-4), 295-306, 2001
6382001
On the complexity of proton conduction phenomena
KD Kreuer
Solid state ionics 136, 149-160, 2000
4442000
Ion conducting membranes for fuel cells and other electrochemical devices
KD Kreuer
Chemistry of Materials 26 (1), 361-380, 2014
3432014
About the choice of the protogenic group in PEM separator materials for intermediate temperature, low humidity operation: a critical comparison of sulfonic acid, phosphonic …
M Schuster, T Rager, A Noda, KD Kreuer, J Maier
Fuel Cells 5 (3), 355-365, 2005
3352005
Short-side-chain proton conducting perfluorosulfonic acid ionomers: Why they perform better in PEM fuel cells
KD Kreuer, M Schuster, B Obliers, O Diat, U Traub, A Fuchs, U Klock, ...
Journal of Power Sources 178 (2), 499-509, 2008
3342008
Intermediate temperature proton conductors for PEM fuel cells based on phosphonic acid as protogenic group: a progress report
H Steininger, M Schuster, KD Kreuer, A Kaltbeitzel, B Bingöl, WH Meyer, ...
Physical Chemistry Chemical Physics 9 (15), 1764-1773, 2007
3232007
The mechanism of proton conduction in phosphoric acid
L Vilčiauskas, ME Tuckerman, G Bester, SJ Paddison, KD Kreuer
Nature chemistry 4 (6), 461-466, 2012
3212012
Alkaline stability of quaternary ammonium cations for alkaline fuel cell membranes and ionic liquids
MG Marino, KD Kreuer
ChemSusChem 8 (3), 513-523, 2015
3152015
The diffusion mechanism of an excess proton in imidazole molecule chains: first results of an ab initio molecular dynamics study
W Münch, KD Kreuer, W Silvestri, J Maier, G Seifert
Solid State Ionics 145 (1-4), 437-443, 2001
3152001
Proton mobility in oligomer-bound proton solvents: imidazole immobilization via flexible spacers
M Schuster, WH Meyer, G Wegner, HG Herz, M Ise, KD Kreuer, J Maier
Solid State Ionics 145 (1-4), 85-92, 2001
2842001
Electroosmotic drag in polymer electrolyte membranes: an electrophoretic NMR study
M Ise, KD Kreuer, J Maier
Solid State Ionics 125 (1-4), 213-223, 1999
2821999
Toward a new type of anhydrous organic proton conductor based on immobilized imidazole
MFH Schuster, WH Meyer, M Schuster, KD Kreuer
Chemistry of Materials 16 (2), 329-337, 2004
2772004
The system can't perform the operation now. Try again later.
Articles 1–20