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Results: 1-17 |
Results: 17
Thermodynamics of mobile order theory. Part 4. Comparison of experimental and predicted solubilities for trans-stilbene
Authors: Roy, LE Hernandez, CE De Fina, K Acree, WE
Citation: Le. Roy et al., Thermodynamics of mobile order theory. Part 4. Comparison of experimental and predicted solubilities for trans-stilbene, PHYS CHEM L, 38(3), 2000, pp. 333-343
Heteronuclear chains of four metal atoms including one quadruply bonded dimetal unit. Dichromium and dimolybdenum compounds with appended copper(I) atoms
Authors: Cotton, FA Murillo, CA Roy, LE Zhou, HC
Citation: Fa. Cotton et al., Heteronuclear chains of four metal atoms including one quadruply bonded dimetal unit. Dichromium and dimolybdenum compounds with appended copper(I) atoms, INORG CHEM, 39(8), 2000, pp. 1743-1747
Thermodynamics of mobile order theory. Part 3. Comparison of experimental and predicted solubilities for fluoranthene and pyrene
Authors: Roy, LE Hernandez, CE Acree, WE
Citation: Le. Roy et al., Thermodynamics of mobile order theory. Part 3. Comparison of experimental and predicted solubilities for fluoranthene and pyrene, POLYCYCL AR, 13(2), 1999, pp. 205-219
Solubility of anthracene in organic nonelectrolyte solvents. Comparison ofobserved versus predicted values based upon mobile order theory
Authors: Roy, LE Hernandez, CE Acree, WE
Citation: Le. Roy et al., Solubility of anthracene in organic nonelectrolyte solvents. Comparison ofobserved versus predicted values based upon mobile order theory, POLYCYCL AR, 13(1), 1999, pp. 105-116
Examination of dodecylpyridinium chloride as a potentially selective fluorescence quenching agent for discriminating between alternant versus nonalternant polycyclic aromatic hydrocarbons
Authors: Pandey, S Roy, LE Acree, WE Fetzer, JC
Citation: S. Pandey et al., Examination of dodecylpyridinium chloride as a potentially selective fluorescence quenching agent for discriminating between alternant versus nonalternant polycyclic aromatic hydrocarbons, TALANTA, 48(5), 1999, pp. 1103-1110
Solubility of anthracene in binary alkane+2-ethoxyethanol solvent mixturesat 298.2 K
Authors: Hernandez, CE Roy, LE Deng, TH Tuggle, MB Acree, WE
Citation: Ce. Hernandez et al., Solubility of anthracene in binary alkane+2-ethoxyethanol solvent mixturesat 298.2 K, PHYS CHEM L, 37(6), 1999, pp. 677-682
Solubility of trans-stilbene in binary alkane+2-butanol solvent mixtures at 298.2
Authors: Deng, TH Childress, SD De Fina, KM Hernandez, CE Roy, LE Sharp, TL McKethan, B Rubio, A Sanchez, M Wright, D Acree, WE
Citation: Th. Deng et al., Solubility of trans-stilbene in binary alkane+2-butanol solvent mixtures at 298.2, PHYS CHEM L, 37(6), 1999, pp. 735-740
Solubility of trans-stilbene in binary alkane+1-propanol solvent mixtures at 298.2 K
Authors: Hernandez, CE Roy, LE Sharp, TL Childress, SD De Fina, KM Deng, TH Acree, WE
Citation: Ce. Hernandez et al., Solubility of trans-stilbene in binary alkane+1-propanol solvent mixtures at 298.2 K, PHYS CHEM L, 37(6), 1999, pp. 757-763
Thermodynamics of Mobile Order theory. part 2. Extension of the basic model to prediction of anthracene solubilities in binary alkane plus alkoxyalcohol solvent mixtures
Authors: Hernandez, CE Roy, LE Acree, WE
Citation: Ce. Hernandez et al., Thermodynamics of Mobile Order theory. part 2. Extension of the basic model to prediction of anthracene solubilities in binary alkane plus alkoxyalcohol solvent mixtures, PHYS CHEM L, 37(5), 1999, pp. 505-519
Solubility of anthracene in ternary (propanol plus heptane plus cyclohexane) and (butanol plus heptane plus cyclohexane) solvent mixtures
Authors: Deng, TH Hernandez, CE Roy, LE Acree, WE
Citation: Th. Deng et al., Solubility of anthracene in ternary (propanol plus heptane plus cyclohexane) and (butanol plus heptane plus cyclohexane) solvent mixtures, J CHEM THER, 31(2), 1999, pp. 205-210
Comparison of analytical methods: Direct emission versus first-derivative fluorometric methods for quinine determination in tonic waters
Authors: Pandey, S Borders, TL Hernandez, CE Roy, LE Reddy, GD Martinez, GL Jackson, A Brown, G Acree, WE
Citation: S. Pandey et al., Comparison of analytical methods: Direct emission versus first-derivative fluorometric methods for quinine determination in tonic waters, J CHEM EDUC, 76(1), 1999, pp. 85-87
Solubility of 8-hydroxybenzoic acid in select organic solvents at 298.15 K
Authors: De Fina, KM Sharp, TL Roy, LE Acree, WE
Citation: Km. De Fina et al., Solubility of 8-hydroxybenzoic acid in select organic solvents at 298.15 K, J CHEM EN D, 44(6), 1999, pp. 1262-1264
Solubility of anthracene in ternary 2-butoxyethanol plus alkane plus propanol solvent mixtures
Authors: Deng, TH Horiuchi, S Roy, LE Acree, WE
Citation: Th. Deng et al., Solubility of anthracene in ternary 2-butoxyethanol plus alkane plus propanol solvent mixtures, J CHEM EN D, 44(2), 1999, pp. 258-261
Solubility of anthracene in ternary 2-alkoxyethanol plus cyclohexane plus heptane and 2-alkoxyethanol plus cyclohexane plus 2,2,4-trimethylpentane solvent mixtures
Authors: Deng, TH Childress, SD De Fina, KM Hernandez, CE Roy, LE Sharp, TL Acree, WE
Citation: Th. Deng et al., Solubility of anthracene in ternary 2-alkoxyethanol plus cyclohexane plus heptane and 2-alkoxyethanol plus cyclohexane plus 2,2,4-trimethylpentane solvent mixtures, J CHEM EN D, 44(2), 1999, pp. 357-359
Solubility of phenanthrene in organic nonelectrolyte solvents. Comparison of observed versus predicted values based upon Mobile Order theory
Authors: Hernandez, CE De Fina, KM Roy, LE Sharp, TL Acree, WE
Citation: Ce. Hernandez et al., Solubility of phenanthrene in organic nonelectrolyte solvents. Comparison of observed versus predicted values based upon Mobile Order theory, CAN J CHEM, 77(9), 1999, pp. 1465-1470
Solubility of diphenyl sulfone in organic nonelectrolyte solvents. Comparison of observed versus predicted values based upon the general solvation model
Authors: Fletcher, KA Hernandez, CE Roy, LE Coym, KS Acree, WE
Citation: Ka. Fletcher et al., Solubility of diphenyl sulfone in organic nonelectrolyte solvents. Comparison of observed versus predicted values based upon the general solvation model, CAN J CHEM, 77(7), 1999, pp. 1214-1217
Descriptors for solutes from the solubility of solids: trans-stilbene as an example
Authors: Abraham, MH Green, CE Acree, WE Hernandez, CE Roy, LE
Citation: Mh. Abraham et al., Descriptors for solutes from the solubility of solids: trans-stilbene as an example, J CHEM S P2, (12), 1998, pp. 2677-2681
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