Pressure Profile for an Associating Lennard-Jones Fluid Confined in a Spherical Cavity

Wang, Liyuan; Wang, Haijun; Sun, Zongli

doi:10.1021/acs.jpcb.6b09861

Cited by 8 publications

(4 citation statements)

References 86 publications

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“…The surface tension of complex liquids such as low and high − molar mass alkanes has been measured extensively in the literature via a plethora of experimental methods; some of those are the pendent drop, the Wilhelmy plate, and the sessile bubble method. MD simulations and lattice fluid models , have been employed for the estimation of the surface tensions of simple − ,,, and complex ,, fluids in order to test the theoretical and experimental scaling laws for the surface tension as a function of the temperature , and molar mass ,,, and to evaluate force fields through comparisons with experimental data. Recently, Leroy and Müller-Plathe proposed three algorithms for the estimation of the interfacial free energies through MD simulations and applied their methods to a graphene/water system.…”

Section: Introductionmentioning

confidence: 99%

Molecular Simulations of Free and Graphite Capped Polyethylene Films: Estimation of the Interfacial Free Energies

et al. 2017

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We present a reliable simulation strategy for estimating the surface tension, the work of adhesion, and all related macroscopic work functions of fluid/vacuum and fluid/solid interfaces, directly from the atomic-level stresses in the system. Our methodology employs efficient algorithms (developed here and from the literature) for fast and reliable simulations of high molar mass polymer melts and is applied to the well-tested molten polyethylene/graphite interface, as well to the free surface of molten polyethylene, using a united atom model for the polymer. The surface thermodynamic properties are obtained for a broad range of molar masses and temperatures and are compared to experimental data, theoretical models, and earlier simulation studies. The individual components of the stress tensor are isolated, and their profiles along the aperiodic dimension are correlated to the orientational and structural features of the polymer chains near the interfaces. The distributions of end segments in free and capped polymer films are obtained for various temperatures and molar masses. The simulation procedure, the adequacy of the models employed for the stress tensor, and the tail corrections to surface thermodynamic properties as well as subtle issues arising in simulations of polymer/solid interfaces are discussed in detail.

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Section: Introductionmentioning

confidence: 99%

Molecular Simulations of Free and Graphite Capped Polyethylene Films: Estimation of the Interfacial Free Energies

et al. 2017

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“…Such an average can be undertaken according to the proposal given by Wertheim [48]. As we have done in a previous study [49], this yields the following two-body associating (ASS) potential:…”

Section: A Interactions Between Two Patchy Colloid Particlesmentioning

confidence: 99%

Crystallization, vitrification, and gelation of patchy colloidal particles

Liu

Wang

2019

Chinese Journal of Chemical Physics

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We present the phase diagrams for neutral patchy colloidal particles whose surface is decorated by different number of identical patches, where each patch serves as an associating site. The hard-core Lennard-Jones (LJ) potential and associating interaction are incorporated into the free energies of patchy particles in phases of the fluid (F), random close packing (RCP), and face-centered-cubic (FCC) crystal. A rich phase structure of patchy particles with F-F, F-RCP, and F-FCC transitions can be observed. Meanwhile, the sol-gel transition (SGT) characterizing the connectivity of patchy particles is also investigated. It is shown that, depending on the number of patches and associating energy, the F-F transition might be metastable or stable with respect to the F-RCP and F-FCC transitions. Meanwhile, the critical temperatures, critical densities, triple points, and SGT can be significantly regulated by these factors.

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“…Deviations between WDA and FMT were fairly small. To date the Yu-Wu approach seems to have become 'state-of-the-art' and commonly is applied, e.g., to investigate properties of associating fluids at planar [38][39][40] or spherical interfaces [41][42][43]. However, in situations in which the orientation of the particles becomes important, such as for trivalent patchy spheres close to a neutral wall, both density functional models break down [38].…”

Section: Introductionmentioning

confidence: 99%

Bulk structural information from density functionals for patchy particles

Stopper

Hirschmann

Oettel

et al. 2018

The Journal of Chemical Physics

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We investigate bulk structural properties of tetravalent associating particles within the framework of classical density functional theory, building upon Wertheim's thermodynamic perturbation theory. To this end, we calculate density profiles within an effective test-particle geometry and compare to radial distribution functions obtained from computer simulations. We demonstrate that a modified version of the functional proposed by Yu and Wu [J. Chem. Phys. 116, 7094 (2002)] based on fundamental measure theory for hard spheres produces accurate results, although the functional does not satisfy the exactly known low-density limit. In addition, at low temperatures where particles start to form an amorphous tetrahedral network, quantitative differences between simulations and theory emerge due to the absence of geometrical informations regarding the patch arrangement in the latter. Indeed, here we find that the theory fits better to simulations of the floating-bond model [J. Chem. Phys. 127, 174501 (2007)], which exhibits a weaker tetrahedral order due to more flexible bonds between particles. We also demonstrate that another common density functional approach by Segura et al. [Mol. Phys. 90, 759 (1997)] fails to capture fundamental structural properties.

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Pressure Profile for an Associating Lennard-Jones Fluid Confined in a Spherical Cavity

Cited by 8 publications

References 86 publications

Molecular Simulations of Free and Graphite Capped Polyethylene Films: Estimation of the Interfacial Free Energies

Molecular Simulations of Free and Graphite Capped Polyethylene Films: Estimation of the Interfacial Free Energies

Crystallization, vitrification, and gelation of patchy colloidal particles

Bulk structural information from density functionals for patchy particles

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