Articles in refereed journals

• 121.   Imprinting substrate structures onto a nematic liquid crystal.
  M. Greschek, K. E. Gubbins, M. Schoen, J. Chem. Phys. 137, 144703 (2012)
• 120.   Adhesion of surfaces mediated by adsorbed particles: Monte Carlo simulations and a general relationship between adsorption isotherms and effective adhesion energies.
  T. Stieger, M. Schoen, T. R. Weikl, Soft Matter 8, 11737 (2012)
• 119.   Diffusivity Maximum in a Reentrant Nematic Phase.
  T. Stieger, M. Mazza, M. Schoen, Int. J. Mol Sci 13, 7854 (2012)
• 118.   Defect topologies in a nematic liquid crystal near a patchy colloid.
  M. Melle, S. Schlotthauer, M. G. Mazza, S. H. L. Klapp, M. Schoen, J. Chem. Phys. 136, 194703 (2012)
• 117.   Addendum to 'Finite-size scaling analysis of isotropic-polar phase transitions in an amphiphilic fluid.'
  M. Melle, S. Giura, S. Schlotthauer, M. Schoen, J-Phys.:Condens. Matter 24, 209401 (2012)
• 116.   Finite-size scaling analysis of isotropic-polar phase transitions in an amphiphilic fluid.
  M. Melle, S. Giura, S. Schlotthauer, M. Schoen, J. Phys.: Condens. Matter 24, 035103 (2012)
• 115.   Orientational prewetting of planar solid substrates by a model liquid crystal.
  M. Greschek, M. Schoen, J. Chem. Phys. 135, 204702 (2011)
• 114.   Structure and Dynamics of Reentrant Nematics: Any Open Questions after Almost 40 Years?
  M. G. Mazza, M. Schoen, Int. J. Mol. Sci., 12, 5352-5372 (2011)
• 113.   Role of string-like supramolecular assemblies in reentrant supernematic liquid crystals.
  M. G. Mazza, M. Greschek, R.Valiullin, M. Schoen, Phys. Rev. E 83, 051704 (2011)
• 112.   Finite-Size scaling analysis of isotropic-nematic phase transitions in an anisometric Lennard-Jones fluid.
  M. Greschek, M. Schoen, Phys. Rev. E 83, 011704 (2011)
• 111.   Capillary condensation in deformable nanopores: Wetting  versus nanomechanics.
  M. Schoen, G. Günther, Mol. Phys. 109, 83 (2011)
• 110.   Phase transitions in nanoconfined fluids: Synergistic coupling between soft and hard matter.
  M. Schoen, G. Günther, Soft Matter 6, 5832 (2010)
• 109.   Entropy-Driven Enhanced Self-Diffusion in Confined Reentrant Supernematics.
  M. Mazza, M. Greschek, R. Valiullin, J. Kärger, M. Schoen, Phys. Rev. Lett 105, 227802 (2010)
• 108.   Frustration of nanoconfined liquid crystals due to hybrid substrate anchoring.
  M. Greschek, M. Schoen, Soft Matter 6, 4931 (2010)
• 107.   Pore-lattice deformations in ordered mesoporous matrices: experimental studies and theoretical analysis.
  M. Schoen, O. Paris, G. Guenther, D. Mueter, J. Prass, P. Fratzel,  Phys. Chem. Chem. Phys. 12, 11267 (2010)
• 106.   Phase transitions in nanoconfined fluids: Synergistic coupling between soft and hard matter.
  M. Schoen,G. Guenther, Soft Matter 6, 5832 (2010)
• 105.   sotropic-nematic phase transition in confined mesogenic fluids. The role of substrate anchoring.
  M. Greschek, M. Melle, M. Schoen, Soft Matter 6, 1898-1909 (2010)
• 104.   Sorptionstrain as a packing phenomenon
  G. Günther, M. Schoen, Phys. Chem. Chem. Phys. 11, 9082-9092 (2009)
• 103.   Sorption strains and their consequences for capillary condensation in nanoconfinement
  G. Günther, M. Schoen, Mol. Simol. 35, 138 (2009)
• 102.   Novel insights into nanopore deformation caused by capillary condensation
  G. Günther, J. Prass, O. Paris, M. Schoen, Phys. Rev. Lett. 101, 086104 (2008)
• 101.   Effective single-particle dynamics in two-dimensional solids and liquids
  J.R. Silbermann, S.H.L. Klapp, M. Schoen, Phys. Rev. E 78, 011201 (2008)
• 100.   Intrusion of fluids into nanogrooves. How geometry determines the shape of the gas-liquid interface
  H. Bohlen, A.O. Parry, E. Diaz-Herrera, M. Schoen, Eur. Phys. J. E 25, 103-115 (2008)
• 099.   Fluid bridges confined between chemically nanopatterned solid substrates
  M. Schoen, Physical Chemistry Chemical Physics 10, 223 (2008).
• 098.   Anisotropic self-diffusion in nanofluidic structures
  H. Bock, K.E. Gubbins, M. Schoen, J. Phys. Chem. C 111, 15493 (2007).
• 097.   Dynamics of coarse-grained fluid mixtures: How important is the static structure
  S.H.L. Klapp, J.R. Silbermann, M. Schoen, Mol. Phys. 105, 1039 (2007).
• 096.   The Lotus effect at the nanometer scale. Capillary evaporation in rectangular nonwettable grooves
  H. Bohlen, M. Schoen, Fluid Phase Equilib. 256, 137 (2007)
• 095.   Wetting of rings on a nanopatterned surface: A lattice model study
  F. Porcheron, P. A. Monson and M. Schoen, Phys. Rev. E 73, 041603 (2006).
• 094.   Mesoscale modeling of complex binary fluid mixtures: Towards an atomistic foundation of effective potentials
  J. R. Silbermann, S. H. L. Klapp, M. Schoen, N. Chennamsetty, H. Bock, and K .E. Gubbins, J. Chem. Phys. 124, 074105 (2006).
• 093.   Topography of phase diagrams in a binary fluid mixtures: A mean-field lattice density functional study.
  D. Woywod and M. Schoen, Phys. Rev. E 73, 011201 (2006).
• 092.   Effect of fluid-substrate attraction and pore geometry on fluid adsorption
  H. Bohlen, M. Schoen, J. Chem. Phys. 123, 124714 (2005).
• 091.   Phase behavior and local structure of a binary mixture in pores: Mean-field lattice model calculations for analyzing neutron scattering data
  D. Woywod, S. Schemmel, G. Rother, G.H. Findenegg, and M. Schoen, J. Chem. Phys. 122, 124510 (2005).
• 090.   Pure fluids confined by chemically nanostructured solid surfaces. Mean-field theory versus Monte Carlo simulations.
  J. Sommerfeld, H. Bock, M. Schoen
  in: Statistical Physics and Beyond, 2nd Mexican Meeting on Mathematical and Experimental Physics, Mexico City 6-10 September 2004, hrsg. von F. J. Uribe, L. Garcia-Colin S., E. Diaz-Herrera, AIP Conference Proceedings 757, 37 (2005).
• 089.   Wetting of planar solid surfaces by symmetric binary mixtures
  D. Woywod and M. Schoen, J. Phys.: Cond. Mat. 16, 4761 (2004).
• 088.   Torsion-induced phase transitions
  S. Sacquin-Mora, A. H. Fuchs, and M. Schoen, J. Chem. Phys. 121, 9077 (2004).
• 087.   Why are effective potentials 'soft'?
  S. H. L. Klapp, D. J. Diestler, and M. Schoen, J. Phys.: Cond. Mat. 16, 7331 (2004).
• 086.   Phase behavior of liquid crystals confined by smooth walls
  H. Steuer, S. Hess, M. Schoen, Phys. Rev. E 69, 031708 (2004).
• 085.   Confinement effect on the adsorption from a binary liquid system near liquid/ liquid phase separation
  G. Rother, G. H. Findenegg, D. Woywod, M. Schoen, J. Chem. Phys.120, 11864 (2004) .
• 084.   Wetting of a selective solid surface by an asymmetric binary mixture
  J. R. Silbermann, D. Woywod, M. Schoen, Phys. Rev. E 69, 031606 (2004).
• 083.   Aspects of prewetting at nonplanar surfaces
  H. Bohlen, M. Schoen, J. Chem. Phys. 120, 6691 (2004).
• 082.   Ferroelectric order in a dipolar fluid confined to a slit-pore
  S. H. L. Klapp, M. Schoen, J. Mol. Liq., 109, 55 (2004).
• 081.   Nanoscopic liquid bridges exposed to a torsional strain
  S. Sacquin-Mora, A. H. Fuchs, and M. Schoen, Phys. Rev. E 68, 066103 (2003).
• 080.   Collective dynamics near a phase transition in confined fluids
  M. Schoen, F. Porcheron Eur. Phys. J. E 12, Suppl. 1, S5 (2003).
• 079.   Pressure, alignment and phase behavior of a simple model liquid crystal. A Monte Carlo simulation study
  H. Steuer, S. Hess, M. Schoen, Physica A 328, 322 (2003).
• 078.   Collective dynamics near fluid phase transitions
  M. Schoen, F. Porcheron, Phys. Rev. E 67, 051202 (2003).
• 077.   Depletion potentials near geometrically structured substrates
  P. Bryk, R. Roth, M. Schoen, S. Dietrich, Eur. Phys. Lett. 63, 233 (2003).
• 076.   Phase behavior of confined, symmetric binary mixtures
  D. Woywod, M. Schoen, Phys. Rev. E 67, 026122 (2003).
• 075.   Fluid phase transitions at chemically heterogeneous, nonplanar solid substrates. Surface versus confinement effects
  S. Sacquin, M. Schoen, A. H. Fuchs, J. Chem. Phys. 118, 1453 (2003).
• 074.   Monte Carlo simulations of a complex fluid confined to a pore with nanoscopically rough walls
  F. Porcheron, M. Schoen, A. H. Fuchs, J. Chem. Phys. 116, 5816 (2002).
• 073.   Spontaneous orientational order in confined thin dipolar liquid films
  S. H. L. Klapp, M. Schoen, J. Chem. Phys. 117, 8050 (2002).
• 072.   Propagating hydrodynamic modes in confined fluids
  F. Porcheron, M. Schoen, Phys. Rev. E 66, 041205 (2002).
• 071.   Phase transformations in slit-pores: the role of metastable phases
  S. H. L. Klapp, H. Bock, D. J. Diestler, M. Schoen, J. Phys.: Condens. Matter 14, 5673 (2002).
• 070.   Effect of surface modification on pore condensation: Experimental results and lattice density functional theory
  A. Schreiber, H. Bock, M. Schoen, G. H. Findenegg, Mol. Phys. 100, 2097 (2002).
• 069.   Fluids confined by nanopatterned substrates of low symmetry
  S. Sacquin, M. Schoen, A. H. Fuchs, Mol. Phys. 100, 2971 (2002).
• 068.   Capillary Condensation between mesoscopically rough surfaces
  M. Schoen, Colloids Surfaces A: Physicochem. Eng. Aspects 206, 253 (2002).
• 067.   Phase behaviour of fluids confined between chemically decorated substrates
  H. Bock, D. J. Diestler, M. Schoen, J. Phys.: Condens. Matter 13, 4697 (2001).
• 066.   Role of nanoscopic liquid bridges in static friction
  H. Bock, D. J. Diestler, M. Schoen, Phys. Rev. E 64, 046124 (2001).
• 065.   Structure and solvation forces in confined alkane films
  F. Porcheron, B. Rousseau, M. Schoen, A. H. Fuchs, Physical Chemistry - Chemical Physics (PCCP) 3, 1155 (2001).
• 064.   Correlation of stress and structure in a simple fluid confined to a pore with furrowed walls
  D. J. Diestler, M.Schoen, Phys. Rev. E 62, 6615 (2000).
• 063.   Shear-induced phase transitions in fluids confined between chemically decorated substrates
  H. Bock, M. Schoen, J. Phys.: Condens. Matter 12, 1569 (2000).
• 062.   Thermomechanical properties of confined fluids exposed to a shear strain
  H. Bock, M. Schoen, J. Phys.: Condens. Matter 12, 1545 (2000).
• 061.   Shear-induced phase transitions in confined lattice gases
  M. Schoen, H. Bock, J. Phys.: Condens. Matter 12, A333 (2000).
• 060.   Monte Carlo simulations of confined n-decane films.
  F. Porcheron, B. Rousseau, A. H. Fuchs, M. Schoen, Physical Chemistry - Chemical Physics (PCCP) 1, 4083 (1999).
• 059.   The Joule-Thomson effect in confined fluids.
  M. Schoen, Physica A 270, 353 (1999).
• 058.   Attractive interactions between inclusions in the membrane of a vesicle.
  R. Holzl?hner, M. Schoen, Eur. Phys. J. B 12, 413 (1999).
• 057.   Absence of depletion evidence for critical depletion in slit-pores.
  N. B. Wilding, M. Schoen, Phys. Rev. E 60, 1081 (1999).
• 056.   Phase behavior of a simple fluid confined between chemically corrugated substrates.
  H. Bock, M. Schoen, Phys. Rev. E 59, 4122 (1999).
• 055.   Analytical treatment of a simple fluid adsorbed in a slit-pore.
  M. Schoen, D. J. Diestler, J. Chem. Phys. 109, 5596 (1998)
• 054.   Stick-slip phase transitions in confined solidlike films from an equilibrium perspective.
  P. Bordarier, M. Schoen, A. H. Fuchs, Phys. Rev. E 57, 1621 (1998)
• 053.   Solvation forces in thin films confined between macroscopically curved substrates.
  M. Schoen, T. Gruhn, D. J. Diestler, J. Chem. Phys. 109, 301 (1998)
• 052.   Substrate-induced order in confined nematic liquid-crystal films.
  T. Gruhn, M. Schoen, J. Chem. Phys. 108, 9124 (1998)
• 051.   A grand canonical ensemble Monte Carlo study of confined planar and homeotropically anchored Gay-Berne films.
  T. Gruhn, M. Schoen, Mol. Phys. 93, 681 (1998).
• 050.   Grand canonical ensemble Monte Carlo simulations of confined ``nematic'' Gay-Berne films.
  T. Gruhn, M. Schoen, Thin Solid Films 301, 108 (1998)
• 049.   Ultrathin fluid films confined to a chemically heterogeneous slit-nanopore.
  M. Schoen, D. J. Diestler, Phys. Rev. E 56, 4427 (1997)
• 048.   Aspects of the phase behavior of near-critical fluids confined to mesoporous media.
  M. Schoen, M. Thommes, G. H. Findenegg, J. Chem. Phys. 107, 3262 (1997)
• 047.   Structure of a hard-sphere fluid in hard wedges.
  M. Schoen, S. Dietrich, Phys. Rev. E 56, 499 (1997)
• 046.   Rheology and local structure thin films confined between thermally corrugated walls.
  M. Schoen, Physica A 240, 328 (1997)
• 045.   Liquid-vapor phase coexistence in a chemically heterogeneous slit-nanopore.
  M. Schoen, D. J. Diestler, Chem. Phys. Lett. 270, 339 (1997)
• 044.   The microscopic structure of a confined liquid-crystal film.
  T. Gruhn, M. Schoen, Phys. Rev. E 55, 2861 (1997).
• 043.   On the uniqueness of stratification-induced structural phase transitions in confined films.
  M. Schoen, Ber. Bunsenges. Phys. Chem. 100, 8 (1996)
• 042.   Computer simulation of the rheological behavior of confined films.
  M. Schoen, Mol. Simul. 17, 369 (1996)
• 041.   The impact of discrete wall structure on stratification-induced structural phase transitions in confined films.
  M. Schoen, J. Chem. Phys. 105, 7 (1996)
• 040.   Fluids in micropores.
  V. Effects of molecular motion in the walls of a slit-micropore.
  D. J. Diestler, M. Schoen, J. Chem. Phys. 104, 6784 (1996)
• 039.   Rheological properties of confined thin films.
  M. Schoen, S. Hess, D. J. Diestler, Phys. Rev. E 52, 2587 (1995)
• 038.   The microscopic structure os a pure near-critical fluid confined to a mesoscopic slit-pore.
  M. Schoen, M. Thommes, Phys. Rev. E 52, 6375 (1995)
• 037.   The statistical thermodynamics of thin films.
  D. J. Diestler, M. Schoen, Acta Chim. Hungar. - Models in Chemistry 132, 45 (1995)
• 036.   Taylor-expansion Monte Carlo calculations of classical fluids in the canonical and grand canonical ensemble.
  M. Schoen, J. Comput. Phys. 118, 159 (1995).
• 035.   Critical depletion of a pure fluid in controlled-pore glass. Experimental results and grand canonical ensemble Monte Carlo simulations.
  M. Thommes, G. H. Findenegg, M. Schoen, Langmuir 11, 2137 (1994).
• 034.   Stratification-induced order-disorder phase transition in molecularly thin confined films.
  M. Schoen, D. J. Diestler, J. H. Cushman, J. Chem. Phys. 101, 6865 (1994)
• 033.   Transient coexisting nanophases in ultrathin films confined between corrugated walls
  J. E. Curry, F. Zhang, J. H. Cushman, M. Schoen, D. J. Diestler, J. Chem. Phys. 101, 10824 (1994).
• 032.   A grand isostress ensemble Monte Carlo study of thin films under shear.
  M. Schoen, D. J. Diestler, J. H. Cushman, Ber. Bunsenges. Phys. Chem. 98, 454 (1994).
• 031.   Fluids in micropore.
  IV. The behavior of molecularly thin confined films in the grand isostress ensemble.
  M. Schoen, D. J. Diestler, J. H. Cushman, J. Chem. Phys. 100, 7707 (1994)
• 030.   Thermodynamics of a fluid confined to a slit-pore with structured walls.
  D. J. Diestler, M. Schoen, J. E. Curry, J. H. Cushman, J. Chem. Phys. 101, 9140 (1994).
• 029.   Interfacial tension in confined molecularly thin films.
  J. E. Curry, J. H. Cushman, M. Schoen, D. J. Diestler, Mol. Phys. 81, 1059 (1994)
• 028.   Anomalous diffusion in confined monolayer films.
  M. Schoen, J. H. Cushman, D. J. Diestler, Mol. Phys. 81, 475 (1994)
• 027.   On the thermodynamic stability of confined thin films under shear.
  D. J. Diestler, M. Schoen, J. H. Cushman, Science 262, 545 (1993)
• 026.   Phase transitions in confined molecularly thin films.
  J. H. Cushman, D. J. Diestler, M. Schoen, Mat. Res. Soc. Symp. Proc. 290, 81 (1993)
• 025.   Shear melting of confined monolayer films.
  M. Schoen, D. J. Diestler, J. H. Cushman, Phys. Rev B 47, 5603 (1993).
• 024.   Isostress-isostrain ensemble Monte Carlo simulations of second-order phase transitions in a confined monolayer fluid.
  M. Schoen, D. J. Diestler, J. H. Cushman, Mol. Phys. 78, 1097 (1992)
• 023.   Fluids in micropores.
  III. Self-diffusion in a slit-pore with hard rough walls.
  D. J. Diestler, M. Schoen, A. W. Hertzner, J. H. Cushman, J. Chem. Phys. 95, 5432 (1991)
• 022.   Nonlocal transport theories in media with microstructure.
  J. H. Cushman, D. J. Diestler, M. Schoen, J. Am. Soc. Mech. Eng. Div. Appl. Mech. 117, 17 (1991)
• 021.   The influence of long range electrostatic interactions on properties of polar fluids at liquid-gas interfaces.
  A. W. Hertzner, M. Schoen, H. Morgner, Mol. Phys. 73, 1011 (1991)
• 020.   Comment on ``Adsorption and diffusion at rough surfaces. A comparison of statistical mechanics, molecular dynamics, and kinetic theory''.
  J. P. Valleau, D. J. Diestler, J. H. Cushman, M. Schoen, A. W. Hertzner, J. Chem. Phys. 95, 6194 (1991)
• 019.   Structure of a simple molecular dynamics FORTRAN program optimized for Cray vector processing computers.
  M. Schoen, Comput. Phys. Commun. 52, 175 (1989)
• 018.   The reaction potential in anisotropic fluids.
  A. W. Hertzner, M. Schoen, H. Morgner, Mol. Phys. 68, 1143 (1989)
• 017.   Shear forces in molecularly thin films.
  M. Schoen, C. L. Rhykerd, Jr., D. J. Diestler, J. H. Cushman, Science245, 1223 (1989)
• 016.   Slit-pore sorption isotherms by the grand canonical Monte Carlo method: Manifestations of hysteresis.
  M. Schoen, C. L. Rhykerd, Jr., D. J. Diestler, J. H. Cushman, Mol. Phys. 66, 1171 (1989)
• 015.   Fluids in micropores.
  II. Self-diffusion of a simple classical fluid in a slit-pore.
  M. Schoen, J. H. Cushman, D. J. Diestler, C. L. Rhykerd, Jr., J. Chem. Phys 88, 1394 (1988).
• 014.   Epitaxy in simple classical fluids in micropores and near solid surfaces.
  C. L. Rhykerd, Jr., M. Schoen, D. J. Diestler, J. H. Cushman, Nature330, 461 (1987)
• 013.   Fluids in micropores.
  I. Structure of a simple classical fluid in a slit-pore.
  M. Schoen, D. J. Diestler, J. H. Cushman, J. Chem. Phys. 87, 5464 (1987)
• 012.   Comparison of the Singer method and the constraints method for molecular dynamics simulations of linear molecules on the CYBER 205.
  C. Hoheisel, R. Vogelsang, M. Schoen, Comput. Phys. Commun. 43, 217 (1987)
• 011.   Bulk viscosity of the Lennard-Jones fluid for a wide range of thermodynamic states computed by equilibrium molecular dynamics.
  C. Hoheisel, R. Vogelsang, M. Schoen, J. Chem. Phys. 87, 7195 (1987)
• 010.   Liquid CH, liquid CF and the parially miscible liquid mixture CH₄/ CF₄. A molecular dynamics study based upon both a spherically symmetric and a four-site Lennard-Jones potential model.
  M. Schoen, O. Beyer, C. Hoheisel, Mol. Phys. 58, 699 (1986)
• 009.   Computation and analysis of the dynamic structure factor S (k, w) in binary liquid mixtures. M. Schoen, C. Hoheisel, Mol. Phys. 58, 181 (1986)
• 008.   Static and dynamic cross correlations in thermodynamically stable and unstable mixtures.
  II. Molecular dynamics studies on Lennard-Jones systems constituted of particles of unlike size.
  M. Schoen, C. Hoheisel, Mol. Phys. 57, 65 (1986)
• 007.   Computation and analysis of the dynamic structure factor S (k, w) for small wave vectors. A Molecular dynamics study for a Lennard-Jones liquid.
  M. Schoen, R. Vogelsang, C. Hoheisel, Mol. Phys. 57, 445 (1986).
• 006.   The shear viscosity of a Lennard-Jones fluid calculated by equilibrium molecular dynamics.
  M. Schoen, C. Hoheisel, Mol. Phys. 56, 653 (1985).
• 005.   Static and dynamic cross correlations in thermodynamically stable and unstable mixtures.
  I. A molecular dynamics simulation study using Lennard-Jones (12,6) pair potential functions with identical s parameters.
  M. Schoen, C. Hoheisel, Mol. Phys. 53, 1367 (1984)
• 004.   Vectorized computation of correlation functions from phase space trajectories generated by molecular dynamics calculations.
  C. Hoheisel, M. Schoen, R. Vogelsang, Comput. Phys. Commun. 34, 9 (1984)
• 003.   The mutual diffusion coefficient D in binary liquid model mixtures. Molecular dynamics calculations based on Lennard-Jones(12,6) potentials. II. Lorentz-Berthelot mixtures.
  M. Schoen, C. Hoheisel, Mol. Phys. 52, 1029 (1984)
• 002.   The mutual diffusion coefficient D₁₂ in binary liquid model mixtures. Molecular dynamics calculations based on Lennard-Jones(12,6) potentials. I. The method of determination.
  M. Schoen, C. Hoheisel, Mol. Phys. 52, 33 (1984)
• 001.   Vectorization of molecular dynamics FORTRAN programs using the CYBER 205 vector processing computer.
  R. Vogelsang, M. Schoen, C. Hoheisel, Comput. Phys. Commun. 30, 235 (1983)