| 1 |
Correlation and prediction of ionic liquid viscosity using Valderrama-Patel-Teja cubic equation of state and the geometric similitude concept. Part I: Pure ionic liquids
Valderrama JO, Cardona LE, Rojas RE
Fluid Phase Equilibria, 497, 164, 2019 |
| 2 |
Correlation of ionic liquid viscosity using Valderrama-Patel-Teja cubic equation of state and the geometric similitude concept. Part II: Binary mixtures of ionic liquids
Valderrama JO, Cardona LF, Rojas RE
Fluid Phase Equilibria, 497, 178, 2019 |
| 3 |
Critical Properties of Metal-Containing Ionic Liquids
Valderrama JO, Forero LA, Rojas RE
Industrial & Engineering Chemistry Research, 58(17), 7332, 2019 |
| 4 |
Extension of a Group Contribution Method To Estimate the Critical Properties of Ionic Liquids of High Molecular Mass
Valderrama JO, Forero LA, Rojas RE
Industrial & Engineering Chemistry Research, 54(13), 3480, 2015 |
| 5 |
Critical Properties and Normal Boiling Temperature of Ionic Liquids. Update and a New Consistency Test
Valderrama JO, Forero LA, Rojas RE
Industrial & Engineering Chemistry Research, 51(22), 7838, 2012 |
| 6 |
Prediction of the heat capacity of ionic liquids using the mass connectivity index and a group contribution method
Valderrama JO, Toro A, Rojas RE
Journal of Chemical Thermodynamics, 43(7), 1068, 2011 |
| 7 |
Viscosity of ionic liquids using the concept of mass connectivity and artificial neural networks
Valderrama JO, Munoz JM, Rojas RE
Korean Journal of Chemical Engineering, 28(6), 1451, 2011 |
| 8 |
Predictive model for the heat capacity of ionic liquids using the mass connectivity index
Valderrama JO, Martinez G, Rojas RE
Thermochimica Acta, 513(1-2), 83, 2011 |
| 9 |
Mass connectivity index, a new molecular parameter for the estimation of ionic liquid properties
Valderrama JO, Rojas RE
Fluid Phase Equilibria, 297(1), 107, 2010 |
| 10 |
Density of Ionic Liquids Using Group Contribution and Artificial Neural Networks
Valderrama JO, Reategui A, Rojas RE
Industrial & Engineering Chemistry Research, 48(6), 3254, 2009 |
