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Materials Science and Engineering, University of Michigan

  MSE / People / Faculty / Sharon Glotzer

Articles

  1. A.S. Keys, A.R. Abate, D.J. Durian, S.C. Glotzer, "Spatially hetergeneous dynamics in a system of granualar beads," , (2006).
  2. C. Brick, E.R. Chan, D.C. Martin, S.C. Glotzer, R.M. Laine, "Self-lubricating nano ball bearings," , (2006).
  3. C.R. Iacovella, A.S. Keys, M.A. Horsch, S.C. Glotzer, "Icosahedral packing of polymer-tethered nanospheres and stabilization of the gyroid phase," , (2006). link
  4. E.R. Chan, L.C. Ho, S.C. Glotzer, "Computer Simulations of Block Copolymer Tethered Nanoparticle Self-Assembly," J. Chem. Phys., Vol. 125, Issue 6, pp. 064905 (2006). link
  5. M.A. Horsch, Z.L. Zhang and S.C. Glotzer, "Simulation studies of self-assembly of end-tethered nanorods in solution and role of rod aspect ratio and tether length," J. Chem. Phys., (2006).
  6. M.A. Horsch, Z.L. Zhang, and S.C. Glotzer, "Self-Assembly of Laterally-Tethered Nanorods," Nano Letters, Vol. 6, Issue 11, pp. 2406-2413 (2006).
  7. M.N.J. Bergroth and S.C. Glotzer, "Structural origin of strings and propensity for mobility in simulations of a monoatomic supercooled liquid," , (2006).
  8. T. Chen, Z.L. Zhang and S.C. Glotzer, "Simulation studies of self-assembly of cone-shaped particles," , (2006).
  9. T. Chen, Z.L. Zhang and S.C. Glotzer, "A Precise Packing Sequence of Precise, Self-Assembled Convex Structures," , (2006).
  10. Zhiyong Tang; Zhenli Zhang; Ying Wang; Sharon C. Glotzer; Nicholas A. Kotov, "Protein-Like Self-Assembly of CdTe Nanocrystals into Free-Floating Sheets," Science, Vol. 13, Issue 314, pp. 274-278 (2006). link
  11. C.R. Iacovella, M.A. Horsch, Z-L Zhang, S.C. Glotzer, "Phase diagrams of self-assembled mono-tethered nanospheres from molecular simulation and comparison to surfactants," Langmuir, Vol. 21, Issue 21, pp. 9488-9494 (2005). link
  12. E.R. Chan, X. Zhang, C-Y Lee, M. Neurock, S.C. Glotzer, "Simulations of Tetra-Tethered Organic/Inorganic Nanocube-Polymer Assemblies," Macromolecules, Vol. 38, pp. 6168-6180 (2005). link
  13. M.A. Horsch, Z-L Zhang, S.C. Glotzer, "Self-Assembly of Polymer-Tethered Nanorods," Phys. Rev. Letters, Vol. 95, Issue 5, (2005). link
  14. M.N.J. Bergroth, M. Vogel, S.C. Glotzer, "Examination of dynamic facilitation in molecular dynamics simulations of glass-forming liquids," Journal of Physical Chemistry B, Vol. 109, Issue 14, pp. 6748-6753 (2005). link
  15. S.C. Glotzer, M.A. Horsch, C.R. Iacovella, Z.L. Zhang, E.R. Chan, X. Zhang, "Self-Assembly of Anisotropic Tethered Nanoscale Building Blocks," Curr. Opin. Colloid Interface Sci., Vol. 10, Issue 5-6, pp. 287-295 (2005). link
  16. X. Zhang, E.R. Chan, L.C. Ho , S.C. Glotzer, "Simulations of Organic-tethered Silsesquioxane Nanocube Assemblies," Materials Research Society Symposium Proceedings Series, Vol. 847, pp. EE13.12.1 - EE13.12.5 (2005). link
  17. X. Zhang, E.R. Chan, S.C. Glotzer, "Self-Assembled Morphologies of Mono-Tethered POSS Nanocubes from Computer Simulation," J. Chem. Phys., Vol. 123, pp. 184718 (2005). link
  18. Y. Gebremichael, M.I. Vogel, M.N.J. Bergroth, F.W. Starr, S.C. Glotzer, "Spatially Hetergeneous Dynamics and the Adam-Gibbs Relation in the Dzugutov Liquid," J. Phys. Chem. B, Vol. 109, pp. 15068-15079 (2005). link
  19. Z-L. Zhang, A.S. Keys, T. Chen, S.C. Glotzer, "Self-assembly of 'patchy' particles into diamond structures through molecular mimicry," Langmuir, Vol. 21, Issue 25, pp. 11547-11551 (2005). link
  20. S.C. Glotzer; M.J. Solomon; N.A. Kotov, "Self-assembly: From nanoscale to microscale colloids," AIChE Journal, Vol. 50, Issue 12, (2004). link
  21. Albano, N. Lacevic, M.L. Falk, S.C. Glotzer, "Relating metallic glass mechanical properties to liquid structure," Materials Science and Engineering A, Vol. 375-77, Issue Sp. Iss. SI, pp. 671-674 (2004).
  22. M. Lacevic, S.C. Glotzer, "Dynamical heterogeneity and jamming in glass-forming liquids," Journal of Physical Chemistry B, Vol. 108, Issue 51, pp. 19623-19633 (2004). link
  23. M.A. Horsch, C.R. Iacovella, Z-L Zhang , S.C. Glotzer, "Self-organization of nanoscopic building blocks into ordered assemblies," Mat. Res. Soc. Symp. Proc., Vol. 818, (2004). link
  24. M.A. Horsch, Z-L Zhang, C.R. Iacovella, S.C. Glotzer, "Hydrodynamics and microphase ordering in blockcopolymers: Are hydrodynamics required for ordered phases with periodicity in more than one dimension?," Journal of Chemical Physics, Vol. 121, Issue 22, pp. 11455-11462 (2004). link
  25. M.A. Horsch, Z-L Zhang, S.C. Glotzer, "Tethered Nanoparticles: A New Class of “Macromolecule” for Bio-inspired Materials," Mat. Res. Soc. Symp. Proc., Vol. EXS-1, (2004). link
  26. M.I Vogel, B. Doliwa, A. Heuer, S.C. Glotzer, "Particle rearrangements during transitions between local minima of the potential energy landscape of a binary Lennard-Jones liquid," J. Chem. Phys., Vol. 120, Issue 9, pp. 4404-4414 (2004). link
  27. M.I. Vogel and S.C. Glotzer, "Temperature dependence of spatially heterogeneous dynamics in a model of viscous silica," Physical Review E, Vol. 70, Issue 6, pp. 061504 (2004). link
  28. M.I. Vogel, S.C. Glotzer, "Spatially Heterogeneous Dynamics and Dynamic Facilitation in a Model of Viscous Silica," Phys. Rev. Letters, Vol. 92, Issue 25, pp. 255901 (2004). link
  29. S.C. Glotzer, "Some Assembly Required," Science, Vol. 306, Issue 5695, pp. 419-420 (2004). link
  30. S.C. Glotzer, M.A. Horsch, M.H. Lamm, C.R. Iacovella, Z-L Zhang, "Teaching Computational Materials Science for Nanoscale Science and Engineering," Mat. Res. Soc. Symp. Proc., Vol. 827E, (2004). link
  31. T. Chen, M.H. Lamm, S.C. Glotzer, "Biomolecule-directed assembly of nanoscale building blocks studied via lattice Monte Carlo simulation," Journal of Chemical Physics, Vol. 121, Issue 8, pp. 3919-3929 (2004). link
  32. Y. Gebremichael, M.I. Vogel, S.C. Glotzer, "Particle dynamics and the development of string-like motion in a simulated monoatomic supercooled liquid," J. Chem. Phys., Vol. 120, Issue 9, pp. 4415-4427 (2004). link
  33. Y. Gebremichael, M.I. Vogel, S.C. Glotzer, "Formation of transient clusters on nanoscopic length scales in a simulated one-component supercooled liquid," Molecular Simulation, Vol. 30, Issue 5, pp. 281-287 (2004). link
  34. Z-L Zhang, S.C. Glotzer, "Self-assembly of patchy particles," Nano Letters, Vol. 4, Issue 8, pp. 1407-1413 (2004). link
  35. F.W. Starr, J. F. Douglas, S.C. Glotzer, "Origin of particle clustering in a simulated polymer nanocomposite and its impact on rheology," J. Chem. Phys., Vol. 119, Issue 3, pp. 1777 (2003). link
  36. M. Aichele, Y. Gebremichael, F.W. Starr, J. Baschnagel, S.C. Glotzer, "Polymer-specific effects and string-like motion in a simulated glass-forming polymer melt," J. Chem. Phys., Vol. 119, pp. 5290 (2003). link
  37. M. H. Lamm, T. Chen, S.C. Glotzer, "Simulated Assembly of Nanostructured Organic/Inorganic Networks," Nano Letters, Vol. 3, Issue 8, pp. 989 (2003). link
  38. N. Lacevic, S.C. Glotzer, "Approach to the glass transition studied by higher order correlation functions," J. Phys. Cond. Mat., Vol. 5, Issue 31, pp. S2437-S2446 (2003). link
  39. N. Lacevic, T.B. Schroeder, F.W. Starr, S.C. Glotzer, "Spatially heterogeneous dynamics investigated via a time-dependent four-point density correlation function," J. Chem. Physics, Vol. 119, Issue 14, pp. 7372-7387 (2003). link
  40. S.C. Glotzer, "News and Views: Complex rules for soft systems," Nature Materials, Vol. 2, Issue November, pp. 713-714 (2003). link
  41. Z-L Zhang, M.A. Horsch, M.H. Lamm, S.C. Glotzer, "Tethered nano building blocks: Towards a conceptual framework for nanoparticle self-assembly," Nano Letters, Vol. 3, Issue 10, pp. 1341-1346 (2003). link
  42. Donati, S. Franz, S.C. Glotzer, G. Parisi, "Theory of Nonlinear Susceptibility and Growing Correlation Length in Liquids and Glasses," J. Non-Cryst. Sol., Vol. 307, pp. 215-224 (2002). link
  43. F. W. Starr, S. Sastry, J.F. Douglas, S.C. Glotzer, "What do we learn from the local geometry of glass-forming liquids?," Phys. Rev. Lett., Issue 89, pp. 125501-4 (2002). link
  44. F.W. Starr, T.B. Schroeder, S.C. Glotzer, "Molecular Simulations of a Nanoparticle/Polymer System," Macromolecules, Vol. 35, pp. 4481-4492 (2002). link
  45. N. Lacevic, F.W. Starr, T.B. Schroeder, V. N. Novikov, S.C. Glotzer, "Growing Correlation Length in a Simulated Glass-forming Liquid from a Four-Point Density Correlation Function," Phys. Rev. E, Vol. 66, pp. 030101(R)-4 (2002). link
  46. S.C. Glotzer, W. Paul, "Molecular and Mesoscale Simulation of Polymers," Annu. Rev. Mater. Res., Vol. 32, pp. 401-436 (2002). link
  47. S.C. Glotzer, Y. Gebremichael, N. Lacevic, T.B. Schroeder, F.W. Starr, "Glass-forming Liquids and Polymers: With a Little Help from Computational Statistical Physics," Computer Physics Communications, Vol. 146, Issue 1, pp. 24-29 (2002). link
  48. S.C. Glotzer. Y. Gebremichael, N. Lacevic, T.B. Schroeder, F.W. Starr, "Spatially Heterogeneous Dynamics in Liquids Near Their Glass Transition," ACS Symposium Series, Vol. 820, pp. 214-227 (2002).
  49. F.W. Starr, S.C. Glotzer, "Molecular and Mesoscale Simulations of Nanofilled Polymers," Materials Research Society Fall '00 Proceedings: Filled and Nanocomposite Polymer Materials, Vol. 661, Issue 1, (2001). link
  50. S.C. Glotzer, J.A. Warren, "Computational Materials Science and Industrial R&D: Accelerating Progress," Computing in Science and Engineering, Vol. 3, Issue 1, pp. 67-71 (2001). link
  51. Y. Gebremichael, T.B. Schroeder, F.W. Starr, S.C. Glotzer, "Spatially Correlated Dynamics in a Simulated Glass-forming Polymer Melt: Analysis of Clustering Phenomena," Phys. Rev. E, Vol. 64, pp. 051503(1–13) (2001). link
  52. S.C. Glotzer, "Spatially Heterogeneous Dynamics in Liquids: Insights from Simulation," J. Non-Crystalline Solids, Vol. 274, pp. 342-355 (2000). link
  53. S.C. Glotzer, "Colloids reinforce glass theory," Physics World, Vol. 13, Issue 22, (2000). link
  54. S.C. Glotzer, N. Jan, P.H. Poole, "Potential Energy Landscape of the +/-J Ising Spin Glass," J. Phys. Cond. Mat., Vol. 12, pp. 6675-6682 (2000). link
  55. S.C. Glotzer, V. Novikov, T.B. Schroeder, "Time-dependent, Four-point Density Correlation Function Description of Dynamical Heterogeneity and Decoupling," J. Chem. Phys., Vol. 112, Issue 509, (2000). link
  56. T.B. Schroeder, S. Sastry, J. Dyre, S. C. Glotzer, "Crossover to Potential Energy Landscape Dominated Dynamics in a Model Glass-forming Liquid," J. Chem. Phys., Vol. 112, pp. 9834 (2000). link
  57. B.P. Lee, J.F. Douglas, and S.C. Glotzer, "Filler-Induced Composition Waves in Phase-Separating Polymer Blends," Phys. Rev. E, Vol. 60, pp. 5812 (1999). link
  58. Bennemann, C. Donati, J. Baschnagel, and S.C. Glotzer, "Growing Range of Correlated Motion in a Polymer Melt On Cooling Towards the Glass Transition," Nature, Vol. 399, pp. 246 (1999). link
  59. Donati, S.C. Glotzer and P.H. Poole, "Growing Spatial Correlations of Particle Displacements in a Simulated Liquid on Cooling Toward the Glass Transition," Phys. Rev. Lett., Vol. 82, pp. 5064 (1999). link
  60. Donati, S.C. Glotzer, P.H. Poole, W. Kob, and S.J. Plimpton, "Spatial Correlations of Mobility and Immobility in a Glass-forming Liquid," Phys. Rev. E, Vol. 60, pp. 3107 (1999). link
  61. Lapena, S.C. Glotzer, S.A. Langer, and A.J. Liu, "Effect of Nematic Ordering on Phase Separation in Liquid Crystal/Polymer Blends," Phys. Rev. E, Vol. 60, pp. RC 29 (1999). link
  62. P. Allegrini, J. F. Douglas and S.C. Glotzer, "Dynamic Entropy as a Measure of Caging and Persistent Particle Motion in a Supercooled Liquids," Phys. Rev. E, Vol. 60, pp. 5714 (1999). link
  63. S. Franz, C. Donati, G. Parisi and S.C. Glotzer, "On Dynamical Correlations in Supercooled Liquids," Phil. Mag. B, Vol. 79, pp. 1827-1831 (1999).
  64. S. Sastry, P.G. Debenedetti, F.H. Stillinger, T.B. Schroeder, J. C. Dyre, and S.C. Glotzer, "Potential Energy Landscape Signatures of Slow Dynamics in Glass Forming Liquids," Physica A, Vol. 270, Issue 1-2, pp. 301-308 (1999). link
  65. S.C. Glotzer, "Trends in Computational Materials Science for Materials Design and Processing," Frontiers of Engineering, pp. 37 (1999).
  66. S.C. Glotzer and C. Donati, "Quantifying Spatially Heterogeneous Dynamics in Glassforming Liquids," J. Phys.: Cond. Mat., Vol. 11, pp. A285-A295 (1999).
  67. S.C. Glotzer, C. Donati and P.H. Poole, "Spatially-Correlated Dynamics in Glass-forming Systems: Correlation Functions and Simulations," Computer Simulation Studies in Condensed Matter Physics XI, (1999).
  68. C. Donati, J. Douglas, W. Kob, S.J. Plimpton, P.H. Poole, and S.C. Glotzer, "String-like Cooperative Motion in a Supercooled Liquid," Phys. Rev. Lett., Vol. 80, pp. 2338 (1998). link
  69. Karim, J.F. Douglas, B.P. Lee, S.C. Glotzer, J.A. Rogers, R.J. Jackman, E.J. Amis and G.M. Whitesides, "Phase Separation of Ultrathin Polymer-Blend Films on Patterned Substrates," Phys. Rev. E, Vol. 57, pp. R6273 (1998). link
  70. P.H. Poole, C. Donati and S.C. Glotzer, "Spatial Correlations of Particle Displacements," Physica A, Vol. 261, pp. 51-59 (1998).
  71. S.C. Glotzer, N. Jan, T. Lookman, A.B. MacIsaac, and P.H. Poole, "Dynamical Heterogeneity in the Ising Spin Glass," Phys. Rev. E , Vol. 57, pp. 7350 (1998).
  72. G.B. McKenna and S.C. Glotzer, "40 Years of Entropy Theory and Glasses," J. Research NIST, Vol. 102, Issue 1, (1997).
  73. P.H. Poole, S.C. Glotzer, A. Coniglio, and N. Jan, "Emergence of Fast Local Relaxation Upon Cooling Toward the Ising Spin Glass Transition," Phys. Rev. Lett., Vol. 78, pp. 3394 (1997). link
  74. S.C. Glotzer, P.H. Poole, A, Coniglio and N. Jan, "Non-Monotonic Temperature Dependence of Local Dynamics and Local Energy Upon Cooling Toward the Ising Spin Glass Transition," Prog. Theor. Phys. Supplement, Vol. 126, Issue 383, (1997).
  75. S.C. Glotzer, P.H. Poole, A. Coniglio and N. Jan, "Temperature Dependence of Spatial and Dynamic Heterogeneities Above the Ising Spin Glass Transition," Materials Research Society Fall `96 Proceedings, Symposium T: Structure and Dynamics of Glasses and Glass-Formers, Vol. 455, Issue 223, (1997).
  76. W. Kob, C. Donati, S.J. Plimpton, P.H. Poole, and S.C. Glotzer, "Dynamical Heterogeneity in a Supercooled Lennard-Jones Mixture," Phys. Rev. Lett., Vol. 79, pp. 2827 (1997). link
  77. N. Jan, S.C. Glotzer, P.H. Poole, and A. Coniglio, "Clusters and Fractals in the Ising Spin Glass," Fractals, Vol. 3, (1996).
  78. S.C. Glotzer and A. Coniglio, "Connectivity and Frustration in Glass-Forming Materials," Non equilibrium phenomena in supercooled fluids, glasses and amorphous materials, pp. 381 (1996).
  79. T.B. Liverpool and S.C. Glotzer, "Fixed-Cluster Acceleration Algorithm for Spin Models," Phys. Rev. E, Vol. 53, pp. R4255 (1996).
  80. C. Castellano and S.C. Glotzer, "On the Mechanism of Pinning in Phase-Separating Polymer Blends," J. Chem. Phys., Vol. 103, Issue 21, pp. 9363 (1995). link
  81. E.A. DiMarzio, A. Yang and S.C. Glotzer, "Mixing Plate-like and Rod-like Molecules with Solvent: A Test of Flory-Huggins Lattice Statistics," J. Res. NIST, Vol. 100, pp. 173 (1995).
  82. S.C. Glotzer, "Computer Simulations of Spinodal Decomposition in Polymer Blends," Annual Reviews of Computational Physics, Vol. 2, pp. 1-47 (1995).
  83. S.C. Glotzer, "Glasses and the Glass Transition: Challenges in Materials Theory and Simulation," J. Comp. Mat. Sci., Vol. 4, Issue 4, pp. 283 (1995).
  84. S.C. Glotzer and A. Coniglio, "Frustration, Connectivity, and the Glass Transition," J. Comp. Mat. Sci. , Vol. 4, Issue 4, pp. 325 (1995).
  85. S.C. Glotzer, D. Stauffer, and N. Jan, "Reply to Lefever, et al.," Phys. Rev. Lett., Vol. 75, pp. 1675 (1995). link
  86. S.C. Glotzer, E.A .DiMarzio and M. Muthukumar, "Reaction-Controlled Morphology of Phase-Separating Mixtures," Phys. Rev. Lett., Vol. 74, pp. 2034 (1995). link
  87. S.C. Glotzer, E.A. DiMarzio and M. Muthukumar, "Chemically-Controlled Morphology of Phase-Separating Materials," Il Nuovo Cimento, Vol. 16D, pp. 1171 (1995).
  88. P. Ossadnik, M.F. Gyure, H.E. Stanley and S.C. Glotzer, "Molecular Dynamics Simulation of Spinodal Decomposition in a Two-Dimensional Binary Fluid Mixture," Phys. Rev. Lett., Vol. 72, pp. 2498 (1994).
  89. S.C. Glotzer and A. Coniglio, "Self-Consistent Solution of Phase Separation with Competing Interactions," Phys. Rev. E, Vol. 50, pp. 4241 (1994).
  90. S.C. Glotzer, D. Stauffer and N. Jan, "Monte Carlo Simulations of Phase Separation in Chemically Reactive Binary Mixtures," Phys. Rev. Lett., Vol. 72, pp. 4109 (1994). link
  91. S.C. Glotzer, E.A. DiMarzio and M. Muthukumar, "Spinodal Decomposition of Chemically-Reactive Materials," Proceedings of the Fall Meeting of the Amer. Chem. Soc., Division of Polymeric Materials: Science and Engineering, Vol. 71, Issue 645, (1994).
  92. S.C. Glotzer, M.F. Gyure, F. Sciortino, A. Coniglio and H.E. Stanley, "Pinning in Phase-Separating Systems," Phys. Rev. E., Vol. 49, Issue 247, (1994). link
  93. S.C. Glotzer, M. F. Gyure, F. Sciortino, A. Coniglio and H.E. Stanley, "Kinetics of Phase Separation in the Presence of Two Disparate Energy Scales," Phys. Rev. Lett., Vol. 70, pp. 3275 (1993). link
  94. S.C. Glotzer, P.H. Poole, and N. Jan, "Comment on `Spreading of Damage: An Unexpected Disagreement Between the Sequential and Parallel Updatings in Monte Carlo Simulations," Phys. Rev. Lett., Vol. 70, pp. 2046 (1993).
  95. S.C. Glotzer, R. Bansil, P.D. Gallagher, M.F. Gyure, F. Sciortino, H.E. Stanley, "Physical Gels and Microphase Separation in Multiblock Copolymers," Physica A, Vol. 201, Issue 482, (1993).
  96. S.C. Glotzer, P.H. Poole, and N. Jan, "Time-Dependent Thermodynamic Properties of the Ising Model from Damage Spreading," , Vol. 68, pp. 895--910 (1992).
  97. U. Essmann, S. Glotzer, M. Gyure, B. Ostrovsky, P.H. Poole, S. Sastry, S. Schwarzer, R. Selinger, M.H. Shann, L.S. Shore, H.E. Stanley, E.F. Taylor, and P. Trunfio, "Learning Science Through Guided Discovery: Liquid Water & Molecular Networks," Topics in Modern Statistical Physics: From Phase Transitions to Chaos, G. Gyorgyi, I. Kondor, L. Sasvari and T. Tel, eds. (World Scientific, Singapore 1992), pp. 249 (1992).
  98. S.C. Glotzer and N. Jan, "Damage Spreading in the Kawasaki Ising Model," Physica A, Vol. 73, pp. 325-331 (1991).
  99. S.C. Glotzer, D. Stauffer, and S. Sastry, "Damage Spreading in the Q2R Ising Model," Physica A, Vol. 164, pp. 1-11 (1990).
  100. R.W. Henry and S.C. Glotzer, "A Squeezed State Primer," American Journal of Physics, Vol. 56, pp. 318-328 (1988).
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