The transition element sulfo-selenide Chevrel phases: A new way to stabilize the Mo₆(S, Se)₈ frameworkMANCOUR-BILLAH, A; CHEVREL, R.Journal of alloys and compounds. 2004, Vol 383, pp 49-56, issn 0925-8388, 8 p.Conference Paper

Ultra fast elemental synthesis of high yield copper Chevrel phase with high electrochemical performanceGERSHINSKY, Gregory; HAIK, Ortal; SALITRA, Gregory et al.Journal of solid state chemistry (Print). 2012, Vol 188, pp 50-58, issn 0022-4596, 9 p.Article

Synthesis of Cu₂Mo₆S₈ powders and thin films from intermediate oxides prepared by polymeric precursor methodBOURSICOT, S; BOUQUET, V; PERON, I et al.Solid state sciences. 2012, Vol 14, Num 6, pp 719-724, issn 1293-2558, 6 p.Article

Location of oxygen in the structure of the Chevrel phase Cu_1.8Mo₆S_8-xO_xCERNY, R; YVON, K; WAKIHARA, M et al.Journal of alloys and compounds. 1994, Vol 209, pp L33-L35, issn 0925-8388Article

Crystal structure of the Chevrel phase SnMo₆S₈ at high pressureEHM, L; DERA, P; KNORR, K et al.Physical review B. Condensed matter and materials physics. 2005, Vol 72, Num 1, pp 014113.1-014113.6, issn 1098-0121Article

Structure of Mo₇S₈ : A new binary sulfide synthesized by self molybdenum intercalationBELIN, S; CHEVREL, R; SERGENT, M et al.Materials research bulletin. 1998, Vol 33, Num 1, pp 43-57, issn 0025-5408Article

Effect of pressure and oxygen defects in divalent Chevrel-phase superconductorsCAPONE, D. W. II; GUERTIN, R. P; FONER, S et al.Physical review. B, Condensed matter. 1984, Vol 29, Num 11, pp 6375-6377, issn 0163-1829Article

Rechargeable lithium batteries based on the ternary Chevrel phase AgMo₆S₈ as the cathodeTARASCON, J. M; ORLANDO, T. P; NEAL, M. J et al.Journal of the Electrochemical Society. 1988, Vol 135, Num 4, pp 804-808, issn 0013-4651Article

Effect of spin paramagnetism on upper critical field of disordered nanocrystalline PbMo₆S₈ superconductorLAL, Ratan.Physica. C. Superconductivity. 2009, Vol 469, Num 7-8, pp 265-267, issn 0921-4534, 3 p.Article

Giant resistivity anomaly in A15 Nb₃(Ge, Si) superconductive films with compositionally modulated superstructureYAMAMOTO, H; IKEDA, M; TANAKA, M et al.Japanese journal of applied physics. 1985, Vol 24, Num 5, pp L314-L316, issn 0021-4922Article

Convenient syntheses of chevrel phase compounds from soluble sulfide precursors under flowing hydrogen atmosphereRABILLER-BAUDRY, M; SERGENT, M; CHEVREL, R et al.Materials research bulletin. 1991, Vol 26, Num 6, pp 519-526, issn 0025-5408Article

Lithium organic electrolyte cells using the copper Chevrel phase as cathodeTAKEDA, Y; KANNO, R; NODA, M et al.Materials research bulletin. 1985, Vol 20, Num 1, pp 71-77, issn 0025-5408Article

Superconductivity of the linear chain compound Tl₂Mo₆Se₆LEPETIT, R; MONCEAU, P; POTEL, M et al.Journal of low temperature physics. 1984, Vol 56, Num 3-4, pp 219-235, issn 0022-2291Article

Upper critical field deduced from critical current dataCENDLEWSKA, B; SZYMASZEK, J; WNUK, J. J et al.Physica status solidi. A. Applied research. 1986, Vol 98, Num 1, pp 305-309, issn 0031-8965Article

Heat capacity analysis of a large number of Chevrel-type superconductorsLACHAL, B; JUNOD, A; MULLER, J et al.Journal of low temperature physics. 1984, Vol 55, Num 3-4, pp 195-232, issn 0022-2291Article

Single crystals of Cu_xMo₆Se₈7: growth, compositional inhomogeneity and superconducting propertiesTAKEI, H; TAKAHASHI, T; MIURA, T et al.Japanese journal of applied physics. 1984, Vol 23, Num 4, pp 420-423, issn 0021-4922, 1Article

ELECTRON-PHONON INTERACTION IN CHEVREL-PHASE COMPOUNDSPOBELL F; RAINER D; WUEHL H et al.1982; TOP. CURR. PHYS.; ISSN 0342-6793; DEU; DA. 1982; NO 32; PP. 251-276; BIBL. 59 REF.Article

Study of the metal-semiconductor transition in Rb₂Mo₆Se₆,Rb₂Mo₆Te₆ and Cs₂Mo₆Te₆ under pressuresHOR, P. H; FAN, W. C; CHOU, L. S et al.Solid state communications. 1985, Vol 55, Num 3, pp 231-235, issn 0038-1098Article

STOICHIOMETRY OF THE CHEVREL PHASE SNMO₆S₈WAGNER HA; FREYHARDT HC.1982; JOURNAL OF PHYSICS AND CHEMISTRY OF SOLIDS; ISSN 0022-3697; USA; DA. 1982; VOL. 43; NO 3; PP. 177-181; BIBL. 23 REF.Article

Bonding in Mo_4.5Ru_1.5Te₈, Ni_0.85Mo₆Te₈, Chevrel phase, and related compoundsBERRY, F. J; GIBBS, C.Journal of solid state chemistry (Print). 1994, Vol 109, Num 1, pp 22-29, issn 0022-4596Article

Crystallization of PbMo₆S₈ in amorphous thin filmsSCHEWE-MILLER, I. M; FAN LI; COLUMBIA, M et al.Journal of alloys and compounds. 1994, Vol 204, pp L13-L15, issn 0925-8388Article

The electronic structure of M_xMo₆Se_8-δ Chevrel phases with defectsTOBOLA, J; PECHEUR, P; SCHERRER, H et al.Journal of physics. Condensed matter (Print). 2003, Vol 15, Num 44, pp L655-L659, issn 0953-8984Article

NMR study of the influence of iodine substitution in the Chevrel compounds Mo₆Te_8-xI_x and Mo₆Se_8-xI_xKNOLL, R; GOREN, S. D; KORN, C et al.Physica. B, Condensed matter. 2002, Vol 324, Num 1-4, pp 157-166, issn 0921-4526, 10 p.Article

One of the possible explanations of the major J_c limiting factor at the PbMo₆S₈ granular superconductor grains surfaceEVEN-BOUDJADA, S; TRANCHANT, V; CHEVREL, R et al.Materials letters (General ed.). 1999, Vol 38, Num 2, pp 90-97, issn 0167-577XArticle

Investigation of vortex dynamics close to B_c2 in Cu₂Mo₆S₈ quasi epitaxial thin filmsDECROUX, M; ANTOGNAZZA, L; KUGLER, M et al.Solid state sciences. 1999, Vol 1, Num 7-8, pp 585-595, issn 1293-2558Article