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Molecular Simulation Volume 32, 2006 - Issue 7: ATOMISTIC SIMULATIONS AND THEORY OF NANOPOROUS CARBONS AND NANOSTRUCTURES
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Original Articles

Structure of saccharose-based carbon and transport of confined fluids: hybrid reverse Monte Carlo reconstruction and simulation studies

T. X. Nguyen The University of Queensland, Division of Chemical Engineering, Brisbane, QLD 4072, Australia
,
S. K. Bhatia The University of Queensland, Division of Chemical Engineering, Brisbane, QLD 4072, AustraliaCorrespondence[email protected]
,
S. K. Jain North Carolina State University, Department of Chemical and Biomolecular Engineering, 911 Partner's Way, Raleigh, NC, 27695-7905, USA
&
K. E. Gubbins North Carolina State University, Department of Chemical and Biomolecular Engineering, 911 Partner's Way, Raleigh, NC, 27695-7905, USA
Pages 567-577 | Received 01 Dec 2005, Accepted 01 Mar 2006, Published online: 31 Jan 2007

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David Nicholson & Suresh K. Bhatia. (2009) Fluid transport in nanospaces. Molecular Simulation 35:1-2, pages 109-121.
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Articles from other publishers (44)

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Raghuram Thyagarajan & David S. Sholl. (2022) Molecular Simulations of CH 4 and CO 2 Diffusion in Rigid Nanoporous Amorphous Materials . The Journal of Physical Chemistry C 126:19, pages 8530-8538.
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Masaya Ishida & Tomonori Ohba. (2020) Hybrid Reverse Molecular Dynamics Simulation as New Approach to Determination of Carbon Nanostructure of Carbon Blacks. Scientific Reports 10:1.
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Carla de Tomas, Irene Suarez-Martinez & Nigel A. Marks. (2018) Carbide-derived carbons for dense and tunable 3D graphene networks. Applied Physics Letters 112:25.
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Carla de Tomas, Irene Suarez-Martinez, Fernando Vallejos-Burgos, María J. López, Katsumi Kaneko & Nigel A. Marks. (2017) Structural prediction of graphitization and porosity in carbide-derived carbons. Carbon 119, pages 1-9.
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Suresh K. Bhatia. (2016) Characterizing Structural Complexity in Disordered Carbons: From the Slit Pore to Atomistic Models. Langmuir 33:4, pages 831-847.
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Xi Mi & Yunfeng Shi. (2017) Measuring the surface diffusivity of argon in nanoporous carbon. Physical Chemistry Chemical Physics 19:8, pages 5855-5860.
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Amir H. Farmahini & Suresh K. Bhatia. (2016) Effect of structural anisotropy and pore-network accessibility on fluid transport in nanoporous Ti3SiC2 carbide-derived carbon. Carbon 103, pages 16-27.
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Chang’an Wang, Justin K. Watson, Enette Louw & Jonathan P. Mathews. (2015) Construction Strategy for Atomistic Models of Coal Chars Capturing Stacking Diversity and Pore Size Distribution. Energy & Fuels 29:8, pages 4814-4826.
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Ali Shahtalebi, Pradeep Shukla, Amir H. Farmahini & Suresh K. Bhatia. (2015) Barriers to diffusion of CO2 in microporous carbon derived from silicon carbide. Carbon 88, pages 1-15.
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Colin Bousige, Alexandru Boţan, Franz-Josef Ulm, Roland J.-M. Pellenq & Benoît Coasne. (2015) Optimized molecular reconstruction procedure combining hybrid reverse Monte Carlo and molecular dynamics. The Journal of Chemical Physics 142:11.
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Amir H. Farmahini & Suresh K. Bhatia. (2015) Hybrid Reverse Monte Carlo simulation of amorphous carbon: Distinguishing between competing structures obtained using different modeling protocols. Carbon 83, pages 53-70.
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Amir H. Farmahini, Ali Shahtalebi, Hervé Jobic & Suresh K. Bhatia. (2014) Influence of Structural Heterogeneity on Diffusion of CH 4 and CO 2 in Silicon Carbide-Derived Nanoporous Carbon . The Journal of Physical Chemistry C 118:22, pages 11784-11798.
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Chunyan Fan, D. D. Do & D. Nicholson. (2013) Condensation and Evaporation in Capillaries with Nonuniform Cross Sections. Industrial & Engineering Chemistry Research 52:39, pages 14304-14314.
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G. Opletal, T.C. Petersen, I.K. Snook & S.P. Russo. (2013) HRMC_2.0: Hybrid Reverse Monte Carlo method with silicon, carbon and germanium potentials. Computer Physics Communications 184:8, pages 1946-1957.
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Amir H. Farmahini, George Opletal & Suresh K. Bhatia. (2013) Structural Modelling of Silicon Carbide-Derived Nanoporous Carbon by Hybrid Reverse Monte Carlo Simulation. The Journal of Physical Chemistry C 117:27, pages 14081-14094.
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C. Sitprasert, Z.H. Zhu, F.Y. Wang & V. Rudolph. (2013) Multi-component adsorption in heterogeneous carbonaceous porous media through the integration of small-scale, homogenous models. Chemical Engineering Science 95, pages 267-282.
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Thanh X. Nguyen & Suresh K. Bhatia. (2012) Some Anomalies in the Self-Diffusion of Water in Disordered Carbons. The Journal of Physical Chemistry C 116:5, pages 3667-3676.
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Jeremy C. Palmer, Joshua D. Moore, John K. Brennan & Keith E. Gubbins. (2010) Adsorption and diffusion of argon in disordered nanoporous carbons. Adsorption 17:1, pages 189-199.
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Suresh K. Bhatia, Mauricio Rincon Bonilla & David Nicholson. (2011) Molecular transport in nanopores: a theoretical perspective. Physical Chemistry Chemical Physics 13:34, pages 15350.
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Keith E. Gubbins, Ying-Chun Liu, Joshua D. Moore & Jeremy C. Palmer. (2011) The role of molecular modeling in confined systems: impact and prospects. Phys. Chem. Chem. Phys. 13:1, pages 58-85.
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Joshua D. Moore, Jeremy C. Palmer, Ying-Chun Liu, Thomas J. Roussel, John K. Brennan & Keith E. Gubbins. (2010) Adsorption and diffusion of argon confined in ordered and disordered microporous carbons. Applied Surface Science 256:17, pages 5131-5136.
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J.C. Palmer, A. Llobet, S.-H. Yeon, J.E. Fischer, Y. Shi, Y. Gogotsi & K.E. Gubbins. (2010) Modeling the structural evolution of carbide-derived carbons using quenched molecular dynamics. Carbon 48:4, pages 1116-1123.
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J.C. Palmer, J.K. Brennan, M.M. Hurley, A. Balboa & K.E. Gubbins. (2009) Detailed structural models for activated carbons from molecular simulation. Carbon 47:12, pages 2904-2913.
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T. X. Nguyen & S. K. Bhatia. (2009) Accessibility of simple gases in disordered carbons: theory and simulation. Asia-Pacific Journal of Chemical Engineering 4:5, pages 557-562.
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Nafiseh Rajabbeigi, Bahman Elyassi, Theodore T. Tsotsis & Muhammad Sahimi. (2009) Molecular pore-network model for nanoporous materials. I: Application to adsorption in silicon-carbide membranes. Journal of Membrane Science 335:1-2, pages 5-12.
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L.F. Herrera, S. Junpirom, D.D. Do & C. Tangsathitkulchai. (2009) Computer synthesis of char and its characterization. Carbon 47:3, pages 839-849.
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Sylwester Furmaniak, Artur P. Terzyk, Mietek Jaroniec & Piotr A. Gauden. (2008) Argon adsorption in channel-like mesoporous carbons at 77K: Grand Canonical Monte Carlo simulations and pore size analysis. Microporous and Mesoporous Materials 116:1-3, pages 665-669.
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Thanh X. Nguyen, Nathalie Cohaut, Jun-Seok Bae & Suresh K. Bhatia. (2008) New Method for Atomistic Modeling of the Microstructure of Activated Carbons Using Hybrid Reverse Monte Carlo Simulation. Langmuir 24:15, pages 7912-7922.
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G. Opletal, T.C. Petersen, B. O'Malley, I.K. Snook, D.G. McCulloch & I. Yarovsky. (2008) HRMC: Hybrid Reverse Monte Carlo method with silicon and carbon potentials. Computer Physics Communications 178:10, pages 777-787.
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Qiong Cai, Mark J. Biggs & Nigel A. Seaton. (2008) Effect of pore wall model on prediction of diffusion coefficients for graphitic slit pores. Physical Chemistry Chemical Physics 10:18, pages 2519.
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Thanh X. Nguyen & Suresh K. Bhatia. (2007) Kinetic Restriction of Simple Gases in Porous Carbons:  Transition-State Theory Study. Langmuir 24:1, pages 146-154.
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T. X. Nguyen & S. K. Bhatia. (2007) Pore accessibility of N2 and Ar in disordered nanoporous solids: theory and experiment. Adsorption 13:3-4, pages 307-314.
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S. K. Bhatia & D. Nicholson. (2007) Anomalous transport in molecularly confined spaces. The Journal of Chemical Physics 127:12.
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Thanh X. Nguyen & Suresh K. Bhatia. (2007) Determination of Pore Accessibility in Disordered Nanoporous Materials. The Journal of Physical Chemistry C 111:5, pages 2212-2222.
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Thanh Nguyen, Suresh Bhatia, Surrendras Jain & Keith Gubbins. (2006) Hybrid Reverse Monte Carlo Reconstruction and Simulation Studies. Hybrid Reverse Monte Carlo Reconstruction and Simulation Studies.

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