Publications

  1. Z.-F. Huang, M. te Vrugt, R. Wittkowski, and H. Löwen, “Active pattern formation emergent from single-species nonreciprocity”, arXiv:2404.10093
  2. K. R. Elder, Z.-F. Huang, and T. Ala-Nissila, “Influence of dislocations in multilayer graphene stacks: A phase field crystal study”, Phys. Rev. Mater. 8, 104003 (2024).
  3. S. K. Mkhonta, Z.-F. Huang, and K. R. Elder, “Liquid-substrate fluctuation effects on crystal growth and disordered hyperuniformity of two-dimensional materials”, Phys. Rev. Mater. 8, 104002 (2024).
  4. M. Nestler, S. Praetorius, Z.-F. Huang, H. Löwen, and A. Voigt, “Active smectics on a sphere”, J. Phys.: Condens. Matter 36, 185001 (2024).
  5. K. R. Elder, Z.-F. Huang, and T. Ala-Nissila, “Moiré patterns and inversion boundaries in graphene/hexagonal boron nitride bilayers”, Phys. Rev. Materials 7, 024003 (2023).
  6. X. D. Liu, R. P. Panguluri, R. Mukherjee, D. Mishra, S. Pokhrel, D. P. Shoemaker, Z.-F. Huang, and B. Nadgorny, “Nanoparticle geometrical effects on percolation, packing density, and magnetoresistive properties in ferromagnet-superconductor-insulator nanocomposites”, Phys. Rev. B 106, 224417 (2022).
  7. Z.-F. Huang, H. Löwen, and A. Voigt, “Defect dynamics in active smectics induced by confining geometry and topology”, Commun. Phys. 5, 294 (2022).
  8. Z.-F. Huang, “Atomic ordering and phase separation in lateral heterostructures and multijunctions of ternary two-dimensional hexagonal materials”, Phys. Rev. Materials 6, 074001 (2022).
  9. Z.-L. Wang, Z. R. Liu, W. H. Duan, and Z.-F. Huang, “Control of phase ordering and elastic properties in phase field crystals through three-point direct correlation”, Phys. Rev. E 105, 044802 (2022).
  10. B. Waters and Z.-F. Huang, “Grain rotation and coupled grain boundary motion in two-dimensional binary hexagonal materials”, Acta Mater. 225, 117583 (2022). arXiv:2112.11553
  11. M. Salvalaglio, A. Voigt, Z.-F. Huang, and K. R. Elder, “Mesoscale defect motion in binary systems: Effects of compositional strain and Cottrell atmospheres”, Phys. Rev. Lett. 126, 185502 (2021). (Supplemental Material)
  12. S. Pokhrel, B. Waters, S. Felton, Z.-F. Huang, and B. Nadgorny, “Percolation in metal-insulator composites of randomly packed spherocylindrical nanoparticles”, Phys. Rev. B 103, 134110 (2021).
  13. Z.-F. Huang, A. M. Menzel, and H. Löwen, “Dynamical crystallites of active chiral particles”, Phys. Rev. Lett. 125, 218002 (2020).
  14. Z.-L. Wang, Z. R. Liu, Z.-F. Huang, and W. H. Duan, “Minimal phase-field crystal modeling of vapor-liquid-solid coexistence and transitions”, Phys. Rev. Materials 4, 103802 (2020).
  15. E. Vitral, S. Mukherjee, P. H. Leo, J. Viñals, M. R. Paul, and Z.-F. Huang, “Spiral defect chaos in Rayleigh-Bénard convection: Asymptotic and numerical studies of azimuthal flows induced by rotating spirals”, Phys. Rev. Fluids 5, 093501 (2020).
  16. M. Salvalaglio, L. Angheluta, Z.-F. Huang, A. Voigt, K. R. Elder, and J. Viñals, “A coarse-grained phase-field crystal model of plastic motion”, J. Mech. Phys. Solids 137, 103856 (2020). arXiv:1910.04377
  17. D. J. DeGracia, D. Taha, F. T. Anggraini, and Z.-F. Huang, “Nonautonomous dynamics of acute cell injury”, Phys. Rev. E 100, 052407 (2019).
  18. D. Taha, S. R. Dlamini, S. K. Mkhonta, K. R. Elder, and Z.-F. Huang, “Phase ordering, transformation, and grain growth of two-dimensional binary colloidal crystals: A phase field crystal modeling”, Phys. Rev. Materials 3, 095603 (2019).
  19. W. Zhou, J. Wang, B. Lin, Z. Wang, J. Li, and Z.-F. Huang, “Yielding and jerky plasticity of tilt grain boundaries in high-temperature graphene”, Carbon 153, 242-256 (2019). arXiv:2112.11574
  20. W. Zhou, J. Wang, Z. Wang, and Z.-F. Huang, “Mechanical relaxation and fracture of phase field crystals”, Phys. Rev. E 99, 013302 (2019).
  21. Z.-L. Wang, Z. R. Liu, and Z.-F. Huang, “Angle-adjustable density field formulation for the modeling of crystalline microstructure”, Phys. Rev. B 97, 180102(R) (2018). (Supplemental Material)
  22. Z.-L. Wang, Z.-F. Huang, and Z. R. Liu, “Elastic constants of stressed and unstressed materials in the phase-field crystal model”, Phys. Rev. B 97, 144112 (2018).
  23. D. J. DeGracia, D. Taha, F. T. Anggraini, S. Sutariya, G. Rababeh, and Z.-F. Huang, “Abstraction and idealization in biomedicine: The nonautonomous theory of acute cell injury”, Brain Sci. 8, 39 (2018).
  24. D. Taha, S. K. Mkhonta, K. R. Elder, and Z.-F. Huang, “Grain boundary structures and collective dynamics of inversion domains in binary two-dimensional materials”, Phys. Rev. Lett. 118, 255501 (2017). (Supplemental Material)
  25. M. Smirman, D. Taha, A. K. Singh, Z.-F. Huang, and K. R. Elder, “Influence of misorientation on graphene moiré patterns”, Phys. Rev. B 95, 085407 (2017).
  26. D. J. DeGracia, D. Taha, F. T. Anggraini, and Z.-F. Huang, “Neuroprotection is technology, not science”, in Neuroprotective Therapy for Stroke and Ischemic Disease, edited by P. A. Lapchak and J. H. Zhang (Springer 2017), pp. 95-122.
  27. S. K. Mkhonta, K. R. Elder, and Z.-F. Huang, “Emergence of chirality from isotropic interactions of three length scales”, Phys. Rev. Lett. 116, 205502 (2016). (Supplemental Material)
  28. Z.-F. Huang, “Scaling of alloy interfacial properties under compositional strain”, Phys. Rev. E 93, 022803 (2016).
  29. K. R. Elder, Z. Chen, K. L. M. Elder, P. Hirvonen, S. K. Mkhonta, S.-C. Ying, E. Granato, Z.-F. Huang, and T. Ala-Nissila, “Honeycomb and triangular domain wall networks in heteroepitaxial systems”, J. Chem. Phys. 144, 174703 (2016).
  30. R. Mukherjee, Z.-F. Huang, and B. Nadgorny, “Multiple percolation tunneling staircase in metal-semiconductor nanoparticle composites”, Appl. Phys. Lett. 105, 173104 (2014).
  31. D. J. DeGracia, F. T. Anggraini, D. T. M. Taha, and Z.-F. Huang, “Inductive and deductive approaches to acute cell injury”, Int. Sch. Res. Notices 2014, 859341 (2014).
  32. S. K. Mkhonta, K. R. Elder, and Z.-F. Huang, “Exploring the complex world of two-dimensional ordering with three modes”, Phys. Rev. Lett. 111, 035501 (2013).
  33. S. K. Mkhonta, K. R. Elder, Z.-F. Huang, and M. Grant, “Microphase separation in comblike liquid-crystalline diblock copolymers”, Phys. Rev. E 88, 042602 (2013).
  34. N. Ofori-Opoku, J. Stolle, Z.-F. Huang, and N. Provatas, “Complex order parameter phase-field models derived from structural phase-field-crystal models”, Phys. Rev. B 88, 104106 (2013).
  35. Z.-F. Huang, “Scale-coupling and interface-pinning effects in the phase-field-crystal model”, Phys. Rev. E 87, 012401 (2013).
  36. C. G. Gamage and Z.-F. Huang, “Nonlinear dynamics of island coarsening and stabilization during strained film heteroepitaxy”, Phys. Rev. E 87, 022408 (2013).
  37. D. J. DeGracia, Z.-F. Huang, and S. Huang, “A nonlinear dynamical theory of cell injury”, J. Cereb. Blood Flow Metab. 32, 1000 (2012). (Supplementary Materials)
  38. A. Karimi, Z.-F. Huang, and M. R. Paul, “Exploring spiral defect chaos in generalized Swift-Hohenberg models with mean flow”, Phys. Rev. E 84, 046215 (2011). (Erratum)
  39. S. Schmidt, N. Duric, C. P. Li, O. Roy, and Z.-F. Huang, “Modification of Kirchhoff migration with variable sound speed and attenuation for acoustic imaging of media and application to tomographic imaging of the breast”, Med. Phys. 38, 998 (2011).
  40. Z.-F. Huang, K. R. Elder, and N. Provatas, “Phase-field-crystal dynamics for binary systems: Derivation from dynamical density functional theory, amplitude equation formalism, and applications to alloy heterostructures”, Phys. Rev. E 82, 021605 (2010).
  41. K. R. Elder and Z.-F. Huang, “A phase field crystal study of epitaxial island formation on nanomembranes”, J. Phys.: Condens. Matter 22, 364103 (2010).
  42. Z.-F. Huang and K. R. Elder, “Morphological instability, evolution, and scaling in strained epitaxial films: An amplitude-equation analysis of the phase-field-crystal model”, Phys. Rev. B 81, 165421 (2010).
  43. X. D. Liu, R. P. Panguluri, Z.-F. Huang, and B. Nadgorny, “Double percolation transition in superconductor-ferromagnet nanocomposites”, Phys. Rev. Lett. 104, 035701 (2010).
  44. K. R. Elder, Z.-F. Huang, and N. Provatas, “Amplitude expansion of the binary phase-field-crystal model”, Phys. Rev. E 81, 011602 (2010).
  45. D. H. Yeon, Z.-F. Huang, K. R. Elder, and K. Thornton, “Density-amplitude formulation of the phase-field crystal model for two-phase coexistence in two and three dimensions”, Philos. Mag. 90, 237 (2010).
  46. Z.-F. Huang and K. R. Elder, “Mesoscopic and microscopic modeling of island formation in strained film epitaxy”, Phys. Rev. Lett. 101, 158701 (2008).
  47. Z.-F. Huang and J. Viñals, “Grain boundary dynamics in stripe phases of nonpotential systems”, Phys. Rev. E 75, 056202 (2007).
  48. Z.-F. Huang and J. Viñals, “Stability of parallel/perpendicular domain boundaries in lamellar block copolymers under oscillatory shear”, J. Rheol. 51, 99 (2007).
  49. Z.-F. Huang and J. Viñals, “Coarse-grained modeling of mesophase dynamics in block copolymers”, in Nanostructured Soft Matter: Experiment, Theory, Simulation and Perspectives, edited by A. V. Zvelindovsky (Springer 2007).
  50. Z.-F. Huang and J. Viñals, “Orientation selection in lamellar phases by oscillatory shears”, Phys. Rev. E 73, 060501(R) (2006).
  51. Z.-F. Huang and J. Viñals, “Tilt grain boundary instabilities in three-dimensional lamellar patterns”, Phys. Rev. E 71, 031501 (2005).
  52. Z.-F. Huang and J. Viñals, “Shear-induced grain boundary motion for lamellar phases in the weakly nonlinear regime”, Phys. Rev. E 69, 041504 (2004).
  53. Z.-F. Huang and R. C. Desai, “Instabilities, elasticity, and wetting effect in multilayer heteroepitaxial growth”, Mat. Res. Soc. Symp. Proc. 794, T9.2 (2004).
  54. Z.-F. Huang, F. Drolet, and J. Viñals, “Motion of a transverse/parallel grain boundary in a block copolymer under oscillatory shear flow”, Macromolecules 36, 9622 (2003).
  55. Z.-F. Huang, D. Kandel, and R. C. Desai, “Wetting effect and morphological stability in growth of short-period strained multilayers”, Appl. Phys. Lett. 82, 4705 (2003).
  56. Z.-F. Huang and R. C. Desai, “Stress-driven instability in growing multilayer films”, Phys. Rev. B 67, 075416 (2003).
  57. Z.-F. Huang and R. C. Desai, “Epitaxial growth in dislocation-free strained alloy films: Morphological and compositional instabilities”, Phys. Rev. B 65, 205419 (2002).
  58. Z.-F. Huang and R. C. Desai, “Instability and decomposition on the surface of strained alloy films”, Phys. Rev. B 65, 195421 (2002).
  59. Z.-F. Huang and S. Solomon, “Stochastic multiplicative processes for financial markets”, Physica A, 306, 412 (2002).
  60. O. Biham, Z.-F. Huang, O. Malcai, and S. Solomon, “Long-time fluctuations in a dynamical model of stock market indices”, Phys. Rev. E 64, 026101 (2001).
  61. Z.-F. Huang and S. Solomon, “Finite market size as a source of extreme wealth inequality and market instability”, Physica A 294, 503 (2001).
  62. Z.-F. Huang and D. Stauffer, “Stochastic Penna model for biological aging”, Theory Biosci. 120, 21 (2001).
  63. Z.-F. Huang and S. Solomon, “Power, Levy, exponential and Gaussian-like regimes in autocatalytic financial systems”, Eur. Phys. J. B 20, 601 (2001).
  64. Z.-F. Huang, “The first 20 min in the Hong Kong stock market”, Physica A 287, 405 (2000).
  65. Z.-F. Huang, “Self-organized model for information spread in financial markets”, Eur. Phys. J. B 16, 379 (2000).
  66. Z.-F. Huang, “Stability in the social percolation models for two to four dimensions”, Int. J. Mod. Phys. C 11, 287 (2000).
  67. L.-H. Tang and Z.-F. Huang, “Modelling high-frequency economic time series”, Physica A 288, 444 (2000).
  68. Z.-F. Huang, B.-L. Gu, and Y. Tang, “Scaling for domain growth in the Ising model with competing dynamics”, Phys. Rev. E 58, 7126 (1998).
  69. Z.-F. Huang and B.-L. Gu, “Stochastic equation for conserved growth in a restricted solid-on-solid model”, Phys. Rev. E 57, 4480 (1998).
  70. Z.-F. Huang and B.-L. Gu, “Analytic study of domain growth in the Ising model with quenched impurities”, Phys. Rev. E 55, R4841 (1997).
  71. Z.-F. Huang and B.-L. Gu, “A Kinetic study of the ordering process in ternary III-V semiconductor alloys”, J. Phys.: Condens. Matter 9, 5737 (1997).
  72. Z.-F. Huang and B.-L. Gu, “Growth equations for the Wolf-Villain and Das Sarma-Tamborenea models of molecular-beam epitaxy”, Phys. Rev. E 54, 5935 (1996).
  73. B.-L. Gu, Z.-F. Huang, J. Ni, J. Z. Yu, K. Ohno, and Y. Kawazoe, “Dynamic model of epitaxial growth in ternary III-V semiconductor alloys”, Phys. Rev. B 51, 7104 (1995).
  74. Z.-F. Huang, J. Ni, and B.-L. Gu, “Ground-State ordered structures of ternary III-V semiconductor alloys”, Acta Physica Sinica (Chinese) 43, 2003 (1994).
  75. B.-L. Gu, Z.-F. Huang, and J. Ni, “Studies on long-range ordered structures of ternary III-V semiconductor alloys”, High Tech. Lett. (Chinese) 4, 13 (1994).