Non-arrhenius conductivity in the fast lithium conductor Li_1.2Ti_1.8Al_0.2 (PO₄)₃ : A ⁷Li NMR and electric impedance studyARBI, K; TABELLOUT, M; LAZARRAGA, M. G et al.Physical review B. Condensed matter and materials physics. 2005, Vol 72, Num 9, pp 094302.1-094302.8, issn 1098-0121Article

Models of proton dynamics and superprotonic/ionic conduction in hydrogen-bonded ferroelectrics and related (biological) systems. 1. Soliton dynamics in hydrogen-bonded systemsBYSTROV, Vladimir S.Ferroelectrics. Letters section. 2000, Vol 27, Num 5-6, pp 147-159, issn 0731-5171Article

Defect interactions and the superionic transition temperature: a comparative studyANIYA, M; ICHIHARA, S.The Journal of physics and chemistry of solids. 2005, Vol 66, Num 2-4, pp 288-291, issn 0022-3697, 4 p.Conference Paper

The mean-square relative displacement and displacement correlation functions in tetrahedrally and octahedrally coordinated A^NB^8-N crystalsYOSHIASA, A; KOTO, K; MAEDA, H et al.Japanese journal of applied physics. 1997, Vol 36, Num 2, pp 781-784, issn 0021-4922, 1Article

Fast-ion conduction in the presence of a lattice phase transitionBINGHAM, D; BURTON, C. H.Physica status solidi. B. Basic research. 1985, Vol 130, Num 2, pp 483-487, issn 0370-1972Article

Dielectric, electric and Raman studies on the RbK(SO₄).Te(OH)₆ materialCHABCHOUB, N; KHEMAKHEM, H; VON DER MÜHLL, R et al.Journal of alloys and compounds. 2005, Vol 386, pp 319-325, issn 0925-8388, 7 p.Article

Ac ionic conductivity investigations on the CSK(SO₄).Te(OH)₆ materialCHABCHOUB, N; KHEMAKHEM, H.Journal of alloys and compounds. 2004, Vol 370, pp 8-17, issn 0925-8388, 10 p.Article

The effects of crystallization parameters on the ionic conductivity of a lithium aluminum germanium phosphate glass-ceramicTHOKCHOM, Joykumar S; KUMAR, Binod.Journal of power sources (Print). 2010, Vol 195, Num 9, pp 2870-2876, issn 0378-7753, 7 p.Article

Concentration dependence of the ionic conductivity in superionic conductorsYONASHIRO, Katsukuni; IHA, Masahiko.Journal of the Physical Society of Japan. 2001, Vol 70, Num 10, pp 2958-2960, issn 0031-9015Article

Room temperature fast-ion conduction in imidazolium halide saltsEVERY, Hayley A; BISHOP, Andrea G; MACFARLANE, Douglas R et al.Journal of material chemistry. 2001, Vol 11, Num 12, pp 3031-3036, issn 0959-9428Article

Structural invesgitation of Li₂SiS₃ glass using X-ray RDFMLURUGANANDAM, K; SESHASAYEE, M.Solid state communications. 1995, Vol 95, Num 8, pp 499-502, issn 0038-1098Article

Bonding in the superionic phase of waterGOLDMAN, Nir; FRIED, Laurence E; KUO, I-Feng W et al.Physical review letters. 2005, Vol 94, Num 21, pp 217801.1-217801.4, issn 0031-9007Article

Effective pair potentials of molten AgBr estimated from experimental partial structure factorsMITEV, Pavlin Dakev; SAITO, Masatoshi; WASEDA, Yoshio et al.Materials transactions - JIM. 2001, Vol 42, Num 5, pp 829-832, issn 0916-1821Conference Paper

Lithium doped N-methyl-N-ethylpyrrolidinium bis(trifluoromethanesulfonyl)amide fast-ion conducting plastic crystalsFORSYTH, Maria; JUNHUA HUANG; MACFARLANE, Douglas R et al.Journal of material chemistry. 2000, Vol 10, Num 10, pp 2259-2265, issn 0959-9428Article

Ion pairs in superionic conductors. I: The modelSIGARYOV, S. E.Materials science & engineering. B, Solid-state materials for advanced technology. 1992, Vol 13, Num 2, pp 113-116Article

The Behaviors of the SO₄ v₁-Internal Mode near the Superionic Transition Point in Rb₃H(SO₄)₂MATSUMOTO, Yoshiyuki.Journal of the Physical Society of Japan. 2008, Vol 77, Num 6, issn 0031-9015, 065001.1-065001.2Article

Dielectric, elastic and piezoelectric properties of Li₂B₄O₇ single crystals in the temperature range from 4 K to 900 KMAEDA, M; TACHI, H; HONDA, K et al.Japanese journal of applied physics. 1994, Vol 33, Num 4A, pp 1965-1969, issn 0021-4922, 1Article

A chemical approach for the microscopic mechanisms of fast ion transport in solidsANIYA, M.Solid state ionics. 1992, Vol 50, Num 1-2, pp 125-129, issn 0167-2738Article

Lithium, sodium and potassium transport in fast ion conducting glasses : trends and modelsFUSCO, F. A; TULLER, H. L; BUTTON, D. P et al.Materials science & engineering. B, Solid-state materials for advanced technology. 1992, Vol 13, Num 2, pp 157-164Article

The construction and application of a fully flexible computer simulation model for lithium oxideWILSON, Mark; JAHN, Sandro; MADDEN, Paul A et al.Journal of physics. Condensed matter (Print). 2004, Vol 16, Num 27, pp 2795-2810, issn 0953-8984, 16 p.Article

ION DYNAMICS AND TRANSITION TO THE SUPERIONIC STATE IN BETA -AGI.BRINKMANN D; FREUDENREICH W.1978; SOLID STATE COMMUNIC.; G.B.; DA. 1978; VOL. 25; NO 9; PP. 625-628; BIBL. 19 REF.Article

SUPERIONIC CONDUCTORSHAYES W.1978; CONTEMPOR. PHYS.; GBR; DA. 1978; VOL. 19; NO 5; PP. 469-486; BIBL. 1 P.Article

TWO-COMPONENT PARTICLE TRANSPORT AND SUPERIONIC CONDUCTORS.KIMBALL JC.1977; PHYS. REV., B; U.S.A.; DA. 1977; VOL. 16; NO 2; PP. 785-789; BIBL. 13 REF.Article

THE RAMAN SPECTRA OF THE SUPERIONIC CONDUCTOR CUI IN ITS THREE PHASES.BURNS G; DACOL FH; SHAFER MW et al.1977; SOLID STATE COMMUNIC.; G.B.; DA. 1977; VOL. 24; NO 11; PP. 753-757; BIBL. 24 REF.Article

THEORETICAL ASPECTS OF DIFFUSION AND IONIC CONDUCTION IN SUPER-IONIC-CONDUCTORS IN CONNEXION WITH ORDERING TRANSITIONS.SATO H; KIKUCHI R.1977; J. PHYS., COLLOQ.; FR.; DA. 1977 PARU 1978; VOL. 38; NO 7; PP. 159-164; ABS. FR.; BIBL. 23 REF.; (ORDRE DESORDRE SOLIDES. COLLOQ. INT. CNRS; PARIS; 1977)Conference Paper