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Results: 1-25/31
Authors:
Jacob, S
Javornizky, J
Wolf, GH
Angell, CA
Citation: S. Jacob et al., Oxide ion conducting glasses - Synthetic strategies based on liquid state and solid state routes, INT J INORG, 3(3), 2001, pp. 241-251
Authors:
Xu, W
Angell, CA
Citation: W. Xu et Ca. Angell, LiBOB and its derivatives weakly coordinating anions, and the exceptional conductivity of their nonaqueous solutions (vol 4, pg E1, 2001), EL SOLID ST, 4(3), 2001, pp. L3-L3
Authors:
Xu, W
Angell, CA
Citation: W. Xu et Ca. Angell, LiBOB and its derivatives - Weakly coordinating anions, and the exceptional conductivity of their nonaqueous solutions, EL SOLID ST, 4(1), 2001, pp. E1-E4
Authors:
Sun, XG
Xu, W
Zhang, SS
Angell, CA
Citation: Xg. Sun et al., Polyanionic electrolytes with high alkali ion conductivity, J PHYS-COND, 13(36), 2001, pp. 8235-8243
Authors:
Xu, W
Belieres, JP
Angell, CA
Citation: W. Xu et al., Ionic conductivity and electrochemical stability of poly[oligo(ethylene glycol)oxalate]-lithium salt complexes, CHEM MATER, 13(2), 2001, pp. 575-580
Authors:
Sanchez, E
Angell, CA
Torres-Martinez, M
Citation: E. Sanchez et al., Preparation and electrical properties of lithium mix-ion conductors based on oxi-glass systems, B S ESP CER, 40(2), 2001, pp. 125-129
Authors:
Martinez, LM
Angell, CA
Citation: Lm. Martinez et Ca. Angell, A thermodynamic connection to the fragility of glass-forming liquids, NATURE, 410(6829), 2001, pp. 663-667
Authors:
Hemmati, M
Moynihan, CT
Angell, CA
Citation: M. Hemmati et al., Interpretation of the molten BeF2 viscosity anomaly in terms of a high temperature density maximum, and other waterlike features, J CHEM PHYS, 115(14), 2001, pp. 6663-6671
Authors:
Sun, XG
Angell, CA
Citation: Xg. Sun et Ca. Angell, "Acid-in-chain" versus "base-in-chain" anionic polymer electrolytes for electrochemical devices, ELECTR ACT, 46(10-11), 2001, pp. 1467-1473
Authors:
Videa, M
Xu, W
Geil, B
Marzke, R
Angell, CA
Citation: M. Videa et al., High Li+ self-diffusivity and transport number in novel electrolyte solutions, J ELCHEM SO, 148(12), 2001, pp. A1352-A1356
Authors:
Angell, CA
Bressel, RD
Hemmati, M
Sare, EJ
Tucker, JC
Citation: Ca. Angell et al., Water and its anomalies in perspective: tetrahedral liquids with and without liquid-liquid phase transitions, PHYS CHEM P, 2(8), 2000, pp. 1559-1566
Authors:
Angell, CA
Citation: Ca. Angell, The amorphous state equivalent of crystallization: new glass types by first order transition from liquids, crystals, and biopolymers, SOLID ST SC, 2(8), 2000, pp. 791-805
Authors:
Xu, W
Angell, CA
Citation: W. Xu et Ca. Angell, A fusible orthoborate lithium salt with high conductivity in solutions, EL SOLID ST, 3(8), 2000, pp. 366-368
Authors:
Polsky, CH
Martinez, LM
Leinenweber, K
VerHelst, MA
Angell, CA
Wolf, GH
Citation: Ch. Polsky et al., Pressure-induced crystallization of vitreous ZnCl2, PHYS REV B, 61(9), 2000, pp. 5934-5938
Authors:
Angell, CA
Moynihan, CT
Citation: Ca. Angell et Ct. Moynihan, Ideal and cooperative bond-lattice representations of excitations in glass-forming liquids: Excitation profiles, fragilities, and phase transitions, MET MAT T B, 31(4), 2000, pp. 587-596
Authors:
Angell, CA
Citation: Ca. Angell, Ten questions on glassformers, and a real space 'excitations' model with some answers on fragility and phase transitions, J PHYS-COND, 12(29), 2000, pp. 6463-6475
Authors:
Moynihan, CT
Angell, CA
Citation: Ct. Moynihan et Ca. Angell, Bond lattice or excitation model analysis of the configurational entropy of molecular liquids, J NON-CRYST, 274(1-3), 2000, pp. 131-138
Authors:
Angell, CA
Moynihan, CT
Hemmati, M
Citation: Ca. Angell et al., 'Strong' and 'superstrong' liquids, and an approach to the perfect glass state via phase transition, J NON-CRYST, 274(1-3), 2000, pp. 319-331
Authors:
Angell, CA
Ngai, KL
McKenna, GB
McMillan, PF
Martin, SW
Citation: Ca. Angell et al., Relaxation in glassforming liquids and amorphous solids, J APPL PHYS, 88(6), 2000, pp. 3113-3157
Authors:
Xu, K
Angell, CA
Citation: K. Xu et Ca. Angell, Effect of N-substituents on protonation chemistry of trichlorophosphazenes, INORG CHIM, 298(1), 2000, pp. 16-23
Authors:
Zhang, SS
Chang, Z
Xu, K
Angell, CA
Citation: Ss. Zhang et al., Molecular and anionic polymer and oligomer systems with microdecoupled conductivities, ELECTR ACT, 45(8-9), 2000, pp. 1229-1236
Authors:
Lucas, P
Angell, CA
Citation: P. Lucas et Ca. Angell, Synthesis and diagnostic electrochemistry of nanocrystalline Li1+xMn2-xO4 powders of controlled Li content, J ELCHEM SO, 147(12), 2000, pp. 4459-4463
Authors:
Green, JL
Ito, K
Xu, K
Angell, CA
Citation: Jl. Green et al., Fragility in liquids and polymers: New, simple quantifications and interpretations, J PHYS CH B, 103(20), 1999, pp. 3991-3996
Authors:
Sivaraman, A
Senapati, H
Angell, CA
Citation: A. Sivaraman et al., Competitive interactions and glassy state extension in lithium salt solutions, J PHYS CH B, 103(20), 1999, pp. 4159-4163
Authors:
Videa, M
Angell, CA
Citation: M. Videa et Ca. Angell, Glass formation, ionic conductivity, and conductivity viscosity decoupling, in LiAlCl4+LiClO4 and LiAlCl4+LiAlCl3 center dot imide solutions, J PHYS CH B, 103(20), 1999, pp. 4185-4190