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Ilan Riess
Ilan Riess
Physics Department Technion
Verified email at tx.technion.ac.il
Title
Cited by
Cited by
Year
Nature of photovoltaic action in dye-sensitized solar cells
D Cahen, G Hodes, M Grätzel, JF Guillemoles, I Riess
The Journal of Physical Chemistry B 104 (9), 2053-2059, 2000
9502000
Hybrid organic–inorganic perovskites (HOIPs): Opportunities and challenges
J Berry, T Buonassisi, DA Egger, G Hodes, L Kronik, YL Loo, I Lubomirsky, ...
Advanced Materials 27 (35), 5102-5112, 2015
4492015
A percolation treatment of high-field hopping transport
M Pollak, I Riess
Journal of Physics C: Solid State Physics 9 (12), 2339, 1976
2571976
Mixed ionic–electronic conductors—material properties and applications
I Riess
Solid State Ionics 157 (1-4), 1-17, 2003
2462003
Characterization of adsorbed water layers on Y2O3-doped ZrO2
S Raz, K Sasaki, J Maier, I Riess
Solid State Ionics 143 (2), 181-204, 2001
2212001
Specific heat and phase diagram of nonstoichiometric ceria (CeO2− x)
M Ricken, J Nölting, I Riess
Journal of Solid State Chemistry 54 (1), 89-99, 1984
2031984
Electrochemical characteristics of cathodes in solid oxide fuel cells based on ceria electrolytes
M Gödickemeier, K Sasaki, LJ Gauckler, I Riess
Journal of the Electrochemical Society 144 (5), 1635, 1997
1651997
Defect chemistry of Cu2− yO at elevated temperatures. Part II: Electrical conductivity, thermoelectric power and charged point defects
O Porat, I Riess
Solid State Ionics 81 (1-2), 29-41, 1995
1511995
Phase transformations in reduced ceria: Determination by thermal expansion measurements
R Ko, M Ricken, J No, I Riess
Journal of Solid State Chemistry 78 (1), 136-147, 1989
1401989
Perovskite cathodes for solid oxide fuel cells based on ceria electrolytes
M Gödickemeier, K Sasaki, LJ Gauckler, I Riess
Solid State Ionics 86, 691-701, 1996
1301996
Structure and electrical conductivity of La0. 84Sr0. 16MnO3
M Kertesz, I Riess, DS Tannhauser, R Langpape, FJ Rohr
Journal of Solid State Chemistry 42 (2), 125-129, 1982
1261982
Current-voltage relation and charge distribution in mixed ionic electronic solid conductors
I Riess
Journal of Physics and Chemistry of Solids 47 (2), 129-138, 1986
1211986
Solid oxide fuel cells operating on uniform mixtures of fuel and air
I Riess, PJ Van der Put, J Schoonman
Solid State Ionics 82 (1-2), 1-4, 1995
1201995
Theoretical treatment of the transport equations for electrons and ions in a mixed conductor
I Riess
Journal of the Electrochemical Society 128 (10), 2077, 1981
1191981
Characterization of solid oxide fuel cells based on solid electrolytes or mixed ionic electronic conductors
I Riess, M Gödickemeier, LJ Gauckler
Solid State Ionics 90 (1-4), 91-104, 1996
1171996
On the single chamber solid oxide fuel cells
I Riess
Journal of Power Sources 175 (1), 325-337, 2008
1112008
Review of the limitation of the Hebb-Wagner polarization method for measuring partial conductivities in mixed ionic electronic conductors
I Riess
Solid State Ionics 91 (3-4), 221-232, 1996
1071996
Density and Ionic Conductivity of Sintered (CeO2)0.82(GdO1.5)o.18
I Riess, D Braunshtein, DS Tannhauser
Journal of the American Ceramic Society 64 (8), 479-485, 1981
1051981
Self-compensation in semiconductors
Y Tsur, I Riess
Physical Review B 60 (11), 8138, 1999
1041999
The mechanism of initial de-wetting and detachment of thin Au films on YSZ
E Shaffir, I Riess, WD Kaplan
Acta Materialia 57 (1), 248-256, 2009
892009
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