Ionic conductivity of glasses in the MI+ M2S+(0.1 Ga2S3+ 0.9 GeS2) system (M= Li, Na, K and Cs)
W Yao, SW Martin
Solid State Ionics 178 (33-34), 1777-1784
Effect of a surface treatment for LiNi1/3Co1/3Mn1/3O2 cathode material in lithium secondary batteries
HS Kim, KT Kim, YS Kim, SW Martin
Metals and Materials International 14 (1), 105-109
Nanostructured Electrode for a Microbattery
R Salot, F Gaillard, E Rouviere, S Martin
US Patent App. 11/793,893
The comparative structure, properties, and ionic conductivity of LiI+ Li2S+ GeS2 glasses doped with Ga2S3 and La2S3
J Saienga, SW Martin
Journal of Non-Crystalline Solids 354 (14), 1475-1486
Structure and properties of glasses in the MI+ M2S+(0.1 Ga2S3+ 0.9 GeS2), M= Li, Na, K and Cs, system
W Yao, K Berg, S Martin
Journal of Non-Crystalline Solids 354 (18), 2045-2053
Electrochemical behavior of Ge and GeX2 (X= O, S) glasses: Improved reversibility of the reaction of Li with Ge in a sulfide medium
Y Kim, H Hwang, K Lawler, SW Martin, J Cho
Electrochimica Acta 53 (15), 5058-5064
Characterization of New Infrared Nonlinear Optical Material with High Laser Damage Threshold, Li2Ga2GeS6
Youngsik Kim, In-seok Seo, Steve W Martin, Jaewook Baek, P Shiv Halasyamani, Nachiappan Arumugam, Hugo Steinfink
Chemistry of Materials 20 (19), 6048-6052
Structure of Proton-Conducting Alkali Thio-Hydroxogermanates
Maths Karlsson, Aleksandar Matic, Itai Panas, Daniel T Bowron, Steve W Martin, Carly R Nelson, Chad A Martindale, Andreas Hall, Lars Börjesson
Chemistry of Materials 20 (19), 6014-6021
Lithium ion conductivity in single crystal LiFePO4
J Li, W Yao, S Martin, D Vaknin
Solid State Ionics 179 (35-36), 2016-2019
Electrolytic organic glass, its manufacturing process and device comprising it
S Martin, R Salot, P Faucherand, S Oukassi, L Jodin
US Patent App. 12/116,585