Ternary and higher pnictides; prospects for new materials and applications, Lithium nitrides as sustainable energy materials, pp.4099-4118, 1999. ,
DOI : 10.1006/jcat.2001.3283
Synthesis and electrochemical studies of a new anode material, Li3?xCoxN, solid state ionics Study of Li3?xMxN (M: Co, Ni or Cu) system for use as anode material in lithium rechargeable cells, Solid State Ionics, A novel lithium intercalation compound based on the layered structure of lithium nitridonickelates Li3-2xNixN, pp.107-111, 1996. ,
Electrochemical studies of a new anode material Li3-xMxN (M=Co, J. Power Sources J.B J.P, vol.68, issue.8, pp.510-514, 1997. ,
Optimization of cycling properties of the layered lithium cobalt nitride Li2.20Co0.40N as negative electrode material for Li-ion batteries Comparison of the electrochemical properties of metallic layered nitrides containing cobalt, nickel and copper in the 1V ? 0.02V potential range Toward new negative electrode materials for Li-ion batteries: Electrochemical properties of LiNiN, General Structure Analysis System (GSAS), Los Alamos National Laboratory, pp.517-525, 2004. ,
Stoechiometry and defect structure control in the ternary lithium nitridometalates Li3-x-yNixN Spectroscopic and Magnetic Characterization of Low-Valency Nitridometalates Li2, Li1-xMx)N] with M=Cu, Ni, pp.210-221, 2001. ,
Structure of lithium nitride and transition-metal-doped derivatives, Li3-x-yMxN (M=Ni,Cu): a powder neutron diffraction study, Chem. Mater. J.J, vol.14, issue.18, pp.2063-2070, 2002. ,
Direct solidstate synthesis and large-capacity anode operation of Li3-xFexN The influence of polytetrafluoroethylene reduction on the capacity loss of the carbon anode for lithium batteries, Solid State Ionics Crystal structure of pentalithium tris, 21) Kavan, L. Electrochemical carbonLi1-xNix)N]3 (x=0.77), pp.10021-10025, 1912. ,
Li1-xMnx)N]3, two intermediates in the decomposition path of Li7[MnN4] to Li2[(Li1-xMnx)N]: an experimental and theoretical study, Inorg. Chem, vol.40, pp.5-5215, 2001. ,