Highly electroactive nanosized α-LiFeO₂MORALES, Julian; SANTOS-PENA, Jesus.Electrochemistry communications. 2007, Vol 9, Num 8, pp 2116-2120, issn 1388-2481, 5 p.Article

Rapid combinatorial screening by synchrotron X-ray imagingEBA, Hiromi; SAKURAI, Kenji.Applied surface science. 2006, Vol 252, Num 7, pp 2608-2614, issn 0169-4332, 7 p.Conference Paper

Properties of lithium ferrites prepared by combustion synthesis in a magnetic fieldMOROZOV, Yu. G.Inorganic materials. 1999, Vol 35, Num 4, pp 400-401, issn 0020-1685Article

Electronic structure of LiNiO2, LiFeO2 and LiCrO2: X-ray photoelectron and X-ray emission studyGALAKHOV, V. R; KURMAEV, E. Z; UHLENBROCK, S et al.Solid state communications. 1995, Vol 95, Num 6, pp 347-351, issn 0038-1098Article

Solid-state formation of lithium ferrites from mechanically activated Li₂CO₃-Fe₂O₃ mixturesBERBENNI, V; MARINI, A; MATTEAZZI, P et al.Journal of the European Ceramic Society. 2003, Vol 23, Num 3, pp 527-536, issn 0955-2219, 10 p.Article

Characterization of the thermal behavior of Li-Fe-tartrate gels (molar ratio Li/Fe ≤ 1/5)YANG, J. M; TSUO, W. J; YEN, F. S et al.Journal of solid state chemistry (Print). 2001, Vol 160, Num 1, pp 100-107, issn 0022-4596Article

Effect of cation arrangement on the magnetic properties of lithium ferrites (LiFeO₂) prepared by hydrothermal reaction and post-annealing methodTABUCHI, M; TSUTSUI, S; MASQUELIER, C et al.Journal of solid state chemistry (Print). 1998, Vol 140, Num 2, pp 159-167, issn 0022-4596Article

Iron-based composite oxides as alternative negative electrodes for lithium-ion batteriesUZUNOV, I; UZUNOVA, S; KOVACHEVA, D et al.Journal of materials science. 2007, Vol 42, Num 10, pp 3353-3357, issn 0022-2461, 5 p.Conference Paper

New solid state exchange reactions of lithium ferrites with ZnSO4SHLYAKHTIN, O. A; VJUNITSKY, I. N; OH, Y.-J et al.Journal of material chemistry. 1999, Vol 9, Num 6, pp 1223-1225, issn 0959-9428Article

Insights into the electrochemical activity of nanosized α-LiFeO₂MORALES, J; SANTOS-PENA, J; TROCOLI, R et al.Electrochimica acta. 2008, Vol 53, Num 22, pp 6366-6371, issn 0013-4686, 6 p.Article

Large-scale synthesis of α-LiFeO₂ nanorods by low-temperature molten salt synthesis (MSS) methodXIONG WANG; LISHENG GAO; FU ZHOU et al.Journal of crystal growth. 2004, Vol 265, Num 1-2, pp 220-223, issn 0022-0248, 4 p.Article

Structure and electrochemistry of LiMO₂ (M = Ti, Mn, Fe, Co, Ni) prepared by mechanochemical synthesisOBROVAC, M. N; MAO, O; DAHN, J. R et al.Solid state ionics. 1998, Vol 112, Num 1-2, pp 9-19, issn 0167-2738Article

A comparative study of NiO(Li), LiFeO₂, and LiCoO₂ porous cathodes for molten carbonate fuel cellsMAKKUS, R. C; HEMMES, K; DE WIT, J. H. W et al.Journal of the Electrochemical Society. 1994, Vol 141, Num 12, pp 3429-3438, issn 0013-4651Article

The influence of mechanical milling and subsequent calcination on the formation of lithium ferritesWIDATALLAH, Hisham M; BERRY, Frank J.Journal of solid state chemistry (Print). 2002, Vol 164, Num 2, pp 230-236, issn 0022-4596Article

The influence of ball milling and subsequent calcination on the formation of LiFeO₂WIDATALLAH, H. M; JOHNSON, C; BFRRY, F. J et al.Journal of materials science. 2002, Vol 37, Num 21, pp 4621-4625, issn 0022-2461, 5 p.Article

Fe-Li-O phase diagramLYKASOV, A. A; PAVLOVSKAYA, M. S.Inorganic materials. 1998, Vol 34, Num 5, pp 477-479, issn 0020-1685Article

Synthesis of LiMnO₂ and LiFeO₂ in molten Li halidesFUCHS, B; KEMMERS-SACK, S.Solid state ionics. 1994, Vol 68, Num 3-4, pp 279-285, issn 0167-2738Article

Nanosized α-LiFeO₂ as electrochemical supercapacitor electrode in neutral sulfate electrolytesSANTOS-PENA, J; CROSNIER, O; BROUSSE, T et al.Electrochimica acta. 2010, Vol 55, Num 25, pp 7511-7515, issn 0013-4686, 5 p.Conference Paper

LiMO₂ (M = Mn, Fe, and Co) : Energetics, polymorphism and phase transformationMIAOJUN WANG; NAVROTSKY, Alexandra.Journal of solid state chemistry (Print). 2005, Vol 178, Num 4, pp 1230-1240, issn 0022-4596, 11 p.Article

Transmission electron microscopy and electron diffraction study of the short-range ordering structure of a-LiFeO₂MITOME, Masanori; KOHIKI, Shigemi; MURAKAWA, Yusuke et al.Acta crystallographica. Section B, Structural science. 2004, Vol 60, Num 6, pp 698-704, issn 0108-7681, 7 p.Article

Synthesis of layered-structure LiFeO₂SHIMODE, Mikio; SASAKI, Makoto; MUKAIDA, Ken-Ichi et al.Molecular crystals and liquid crystals science and technology. Section A, Molecular crystals and liquid crystals. 2000, Vol 341, pp 183-188, issn 1058-725XConference Paper

Preparation of electrochemically active α-LiFeO₂ at low temperatureSAKURAI, Y; ARAI, H; YAMAKI, J.-I et al.Solid state ionics. 1998, Vol 113-15, pp 29-34, issn 0167-2738Conference Paper

Structure and catalysis of layered rock-salt type oxides for methane oxidationMIYAZAKI, T; DOI, T; KATO, M et al.Applied surface science. 1997, Vol 121-22, pp 492-495, issn 0169-4332Conference Paper

Elaboration et étude de nouveaux matériaux de cathode, dérivés de l'oxyde double de lithium et cobalt, par un procédé de désintercalation chimique = Elaboration and study of novel cathode materials, derived from lithium cobalt oxide, by a chemical deintercalation methodBocai, George; Gorochov, O.1995, 218 p.Thesis

A study on LiCoO₂-rich cathode materials for the MCFC based on the LiCoO₂-LiFeO₂-NiO ternary systemWIJAYASINGHE, Athula; BERGMAN, Bill; LAGERGREN, Carina et al.Electrochimica acta. 2004, Vol 49, Num 26, pp 4709-4717, issn 0013-4686, 9 p.Article