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Bennett D Marshall

Showing results (11-20 of 33) with videos related to

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Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|January 24, 2015
Cluster perturbation theory for the self-assembly of associating fluids into complex structuresBennett D Marshall
The Journal of Chemical Physics|May 10, 2013
Three new branched chain equations of state based on Wertheim's perturbation theoryBennett D Marshall, Walter G Chapman
Soft Matter|June 10, 2014
Thermodynamic perturbation theory for self-assembling mixtures of divalent single patch colloidsBennett D Marshall, Walter G Chapman
The Journal of Chemical Physics|August 10, 2013
Molecular theory for the phase equilibria and cluster distribution of associating fluids with small bond anglesBennett D Marshall, Walter G Chapman
The Journal of Chemical Physics|February 8, 2013
A density functional theory for patchy colloids based on Wertheim's association theory: beyond the single bonding conditionBennett D Marshall, Walter G Chapman
The Journal of Physical Chemistry. B|November 3, 2011
Higher order classical density functional theory for branched chains and ringsBennett D Marshall, Walter G Chapman
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|June 18, 2013
Thermodynamic perturbation theory for associating fluids with small bond angles: effects of steric hindrance, ring formation, and double bondingBennett D Marshall, Walter G Chapman
The Journal of Chemical Physics|September 21, 2013
Molecular theory for self assembling mixtures of patchy colloids and colloids with spherically symmetric attractions: the single patch caseBennett D Marshall, Walter G Chapman
The Journal of Chemical Physics|December 11, 2013
Resummed thermodynamic perturbation theory for bond cooperativity in associating fluidsBennett D Marshall, Walter G Chapman
Membranes|July 25, 2022
Dry Glass Reference Perturbation Theory Predictions of the Temperature and Pressure Dependent Separations of Complex Liquid Mixtures Using SBAD-1 Glassy Polymer MembranesBennett D Marshall, Wenjun Li, Ryan P Lively
Pageof 4

Showing results (11-20 of 33) with videos related to

Sort By:
Pageof 4
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|January 24, 2015
Cluster perturbation theory for the self-assembly of associating fluids into complex structuresBennett D Marshall
The Journal of Chemical Physics|May 10, 2013
Three new branched chain equations of state based on Wertheim's perturbation theoryBennett D Marshall, Walter G Chapman
Soft Matter|June 10, 2014
Thermodynamic perturbation theory for self-assembling mixtures of divalent single patch colloidsBennett D Marshall, Walter G Chapman
The Journal of Chemical Physics|August 10, 2013
Molecular theory for the phase equilibria and cluster distribution of associating fluids with small bond anglesBennett D Marshall, Walter G Chapman
The Journal of Chemical Physics|February 8, 2013
A density functional theory for patchy colloids based on Wertheim's association theory: beyond the single bonding conditionBennett D Marshall, Walter G Chapman
The Journal of Physical Chemistry. B|November 3, 2011
Higher order classical density functional theory for branched chains and ringsBennett D Marshall, Walter G Chapman
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|June 18, 2013
Thermodynamic perturbation theory for associating fluids with small bond angles: effects of steric hindrance, ring formation, and double bondingBennett D Marshall, Walter G Chapman
The Journal of Chemical Physics|September 21, 2013
Molecular theory for self assembling mixtures of patchy colloids and colloids with spherically symmetric attractions: the single patch caseBennett D Marshall, Walter G Chapman
The Journal of Chemical Physics|December 11, 2013
Resummed thermodynamic perturbation theory for bond cooperativity in associating fluidsBennett D Marshall, Walter G Chapman
Membranes|July 25, 2022
Dry Glass Reference Perturbation Theory Predictions of the Temperature and Pressure Dependent Separations of Complex Liquid Mixtures Using SBAD-1 Glassy Polymer MembranesBennett D Marshall, Wenjun Li, Ryan P Lively
Pageof 4