Stefan Adams
Stefan Adams
Assoc. Professor of Materials Science & Engineering, National University of Singapore
Verified email at - Homepage
Cited by
Cited by
Proton conducting alkaline earth zirconates and titanates for high drain electrochemical applications
KD Kreuer, S Adams, W Münch, A Fuchs, U Klock, J Maier
Solid State Ionics 145 (1), 295-306, 2001
Unique cobalt sulfide/reduced graphene oxide composite as an anode for sodium‐ion batteries with superior rate capability and long cycling stability
S Peng, X Han, L Li, Z Zhu, F Cheng, M Srinivansan, S Adams, ...
Small 12 (10), 1359-1368, 2016
Relationship between bond valence and bond softness of alkali halides and chalcogenides
S Adams
Acta Crystallographica Section B: Structural Science 57 (3), 278-287, 2001
Crystal structure of a superionic conductor, Li7P3S11
H Yamane, M Shibata, Y Shimane, T Junke, Y Seino, S Adams, K Minami, ...
Solid State Ionics 178 (15-18), 1163-1167, 2007
Ion transport and phase transition in Li 7− x La 3 (Zr 2− x M x) O 12 (M= Ta 5+, Nb 5+, x= 0, 0.25)
S Adams, RP Rao
Journal of Materials Chemistry 22 (4), 1426-1434, 2012
Crystal structure revision and identification of Li+-ion migration pathways in the garnet-like Li5La3M2O12 (M= Nb, Ta) oxides
V Thangadurai, S Adams, W Weppner
Chemistry of materials 16 (16), 2998-3006, 2004
High power lithium ion battery materials by computational design
S Adams, RP Rao
physica status solidi (a) 208 (8), 1746-1753, 2011
Mixed alkali effect in glasses
J Swenson, S Adams
Physical review letters 90 (15), 155507, 2003
Electrospun carbon nanofibers and their hybrid composites as advanced materials for energy conversion and storage
S Peng, L Li, JKY Lee, L Tian, M Srinivasan, S Adams, S Ramakrishna
Nano Energy 22, 361-395, 2016
Structural requirements for fast lithium ion migration in Li 10 GeP 2 S 12
S Adams, RP Rao
Journal of Materials Chemistry 22 (16), 7687-7691, 2012
Studies of lithium argyrodite solid electrolytes for all‐solid‐state batteries
RP Rao, S Adams
physica status solidi (a) 208 (8), 1804-1807, 2011
Determining ionic conductivity from structural models of fast ionic conductors
S Adams, J Swenson
Physical review letters 84 (18), 4144, 2000
From bond valence maps to energy landscapes for mobile ions in ion-conducting solids
S Adams
Solid State Ionics 177 (19-25), 1625-1630, 2006
Transport pathways for mobile ions in disordered solids from the analysis of energy-scaled bond-valence mismatch landscapes
S Adams, RP Rao
Physical Chemistry Chemical Physics 11 (17), 3210-3216, 2009
Variation in structure and Li+-ion migration in argyrodite-type Li6PS5X (X = Cl, Br, I) solid electrolytes
PR Rayavarapu, N Sharma, VK Peterson, S Adams
Journal of Solid State Electrochemistry 16 (5), 1807-1813, 2012
The relation between crystal structure and the formation and mobility of protonic charge carriers in perovskite-type oxides: A case study of Y-doped BaCeO3 and SrCeO3
W Münch, KD Kreuer, St. Adams, G Seifert, J Maier
Phase Transitions 68 (3), 567-586, 1999
Transport and Phase Transition Characteristics in AgI: Al2O3 Composite Electrolytes. Evidence for a Highly Conducting 7-Layer AgI Polytype
JS Lee, S Adams, J Maier
Journal of the Electrochemical Society 147 (6), 2407-2418, 2000
Screening of the alkali-metal ion containing materials from the Inorganic Crystal Structure Database (ICSD) for high ionic conductivity pathways using the bond valence method
M Avdeev, M Sale, S Adams, RP Rao
Solid State Ionics 225, 43-46, 2012
Design of 3D hierarchical architectures of carbon and highly active transition-metals (Fe, Co, Ni) as bifunctional oxygen catalysts for hybrid lithium-air batteries
D Ji, S Peng, D Safanama, H Yu, L Li, G Yang, X Qin, S Madhavi, ...
Chemistry of Materials 29 (4), 1665–1675, 2017
Formation and conductivity studies of lithium argyrodite solid electrolytes using in-situ neutron diffraction
RP Rao, N Sharma, VK Peterson, S Adams
Solid State Ionics 230, 72-76, 2013
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