Complete List of Publications (Grouped by Year – Descending)
2025
· 67. Daniel Salgado-Blanco, José A. Martínez-González, Enrique Díaz-Herrera, and Carlos I. Mendoza, “Discotic liquid crystal shells under mixed anchoring: Monte Carlo simulation study”, Journal of Physics: Condensed Matter 37, 485101 (2025).
· 66. Carlos I. Mendoza and David Reguera, “Assembly of tubes in the stretching-dominated limit”, The Journal of Chemical Physics 163, 034905 (2025).
2024
· 65. Daniel Salgado-Blanco et al., “Edge-on anchored discotic liquid crystals in spherical shells”, Physical Review E 110, 034704 (2024).
2023
· 64. Daniel Salgado-Blanco et al., “Phase transitions and topological defects in discotic liquid crystal droplets”, Soft Matter 19, 5916 (2023).
· 63. Pablo Sanchez-Martinez et al., “Isobars and pitch of cholesteric phases for a chiral Gay-Berne fluid”, Molecular Physics 121, e2154715 (2023).
2022
· 62. S. E. Pérez-Figueroa et al., “Packing core-corona particles on a spherical surface”, Soft Matter 18, 6812 (2022).
· 61. Carlos I. Mendoza et al., “Band structure of a rotating helical phononic crystal”, Physical Review E 105, 055002 (2022).
· 60. Daniel Salgado-Blanco et al., “Structural Properties and Ring Defect Formation in Discotic Liquid Crystal Nanodroplets”, Journal of Physics: Condensed Matter 34, 254001 (2022).
2021
· 59. Carlos I. Mendoza, “Inhomogeneous transmission and asynchronic mixing in the spread of COVID-19 epidemics”, Frontiers in Physics 9, 683364 (2021).
2020
· 58. Carlos I. Mendoza and J. A. Reyes, “Dependence of the elastic band structure of a helical medium on thermal dilatation”, Journal of Physics: Condensed Matter 32, 445701 (2020).
· 57. Carlos I. Mendoza and David Reguera, “Shape selection and mis-assembly in viral capsid formation by elastic frustration”, eLife 9, 52525 (2020).
· 56. Daniel Salgado-Blanco et al., “Orientational dependence of the potential of mean force for a discotic liquid crystal”, Molecular Physics 118, e1748241 (2020).
· 55. Erik R. Fonseca and Carlos I. Mendoza, “Self-assembly of core-corona particles confined in a circular box”, Journal of Physics: Condensed Matter 32, 015101 (2020).
2019
· 54. Daniel Salgado-Blanco et al., “Effect of the anchoring strength on the phase behaviour of discotic liquid crystals”, Journal of Physics: Condensed Matter 31, 105101 (2019).
2018
· 53. Carlos I. Mendoza and J. A. Reyes, “Total internal reflection in a hybrid nematic cell”, Advances in Condensed Matter Physics 2018, 3507176 (2018).
· 52. Daniel Salgado-Blanco et al., “Influence of anchoring in the phase behaviour of discotic liquid crystals”, Soft Matter 14, 2846 (2018).
· 51. Jorge Gutiérrez-Flores et al., “Electronic properties of DNA”, Biophysical Chemistry 233, 26 (2018).
2017
· 50. Garcia-Alles L.F. et al., “Spontaneous non-canonical assembly of CcmK components”, PLoS ONE 12, e0185109 (2017).
· 49. Carlos I. Mendoza, “A simple semiempirical model for the effective viscosity of multicomponent suspensions”, Rheologica Acta 56, 487 (2017).
2015
· 48. Carlos I. Mendoza et al., “Effective temperatures and the breakdown of the Stokes–Einstein relation”, Journal of Chemical Physics 143, 104506 (2015).
· 47. Carlos I. Mendoza and I. Santamaría-Holek, “Comment on viscosity of asphaltene solutions”, Canadian Journal of Chemical Engineering 97, 1149 (2015).
· 46. Xiaoming Mao et al., “Mechanical instability at finite temperature”, Nature Communications 6, 5968 (2015).
· 45. Daniel Salgado-Blanco and Carlos I. Mendoza, “Non-additive simple potentials for pre-programmed self-assembly”, Soft Matter 11, 889 (2015).
2013
· 44. Daniel Salgado-Blanco and Carlos I. Mendoza, “Self-assembly of anisotropic soft particles in two dimensions”, European Physical Journal E 36, 38 (2013).
· 43. Carlos I. Mendoza, “Model for the shear viscosity of suspensions of star polymers”, Macromolecular Chemistry and Physics 214, 599 (2013).
2012
· 42. Carlos I. Mendoza and J. Adrian Reyes, “Metamaterial features in a dielectric fiber”, Applied Physics Letters 101, 143508 (2012).
2011
· 41. Carlos I. Mendoza, “Effective static and high-frequency viscosities”, Journal of Chemical Physics 135, 054904 (2011).
· 40. Carlos I. Mendoza and J. Adrian Reyes, “Nonlinear electromagnetic waves in a nematic slab”, Molecular Crystals and Liquid Crystals 543, 177 (2011).
2010
· 39. Carlos I. Mendoza et al., “Enhanced shear separation for chiral magnetic colloidal aggregates”, Physical Review E 82, 060401 (2010).
· 38. Ivan Santamaría-Holek and Carlos I. Mendoza, “Rheology of concentrated suspensions of arbitrarily-shaped particles”, Journal of Colloid and Interface Science 346, 118 (2010).
· 37. Carlos I. Mendoza and I. Santamaría-Holek, “Rheology of concentrated emulsions of spherical droplets”, Applied Rheology 20, 23493 (2010).
2009
· 36. Carlos I. Mendoza and Erasmo Batta, “Self-assembly of binary nanoparticle dispersions”, Europhysics Letters 85, 56004 (2009).
· 35. Carlos I. Mendoza and I. Santamaría-Holek, “The rheology of hard-sphere suspensions”, Journal of Chemical Physics 130, 044904 (2009).
2008
· 34. J.C. Medina and Carlos I. Mendoza, “Electrorheological effect and non-Newtonian response”, Europhysics Letters 84, 16002 (2008).
· 33. J. Adrián Reyes et al., “Electrorheological response and orientational bistability”, Journal of Chemical Physics 129, 084710 (2008).
· 32. Carlos I. Mendoza and G. Ramírez-Santiago, “Number of arm selection in two-dimensional diffusion processes”, European Physical Journal E 27, 31 (2008).
· 31. Carlos I. Mendoza et al., “Electrorheological effect and directional non-Newtonian behavior”, Physical Review E 77, 011706 (2008).
2007
· 30. Guillermo Ramírez-Santiago and Carlos I. Mendoza, “Structural properties and scaling of the radius of gyration”, Physica A 386, 659 (2007).
· 29. A. David Guillén and Carlos I. Mendoza, “Influence of an electric field on the non-Newtonian response”, Journal of Chemical Physics 126, 204905 (2007).
· 28. Carlos I. Mendoza et al., “Electrically Controlled Dispersion in a Nematic Cell”, Physica B 387, 167 (2007).
2006
· 27. S.I. Hernández et al., “Generalized hydrodynamics of a dilute suspension”, Physical Review E 74, 051401 (2006).
· 26. Carlos I. Mendoza and J.A. Reyes, “Light propagation and transmission in hybrid-aligned nematic liquid crystal cells”, Applied Physics Letters 89, 091912 (2006).
· 25. Carlos I. Mendoza et al., “Dispersion effects on the ray tracing and reflectivity”, Revista Mexicana de Física S52, 41 (2006).
· 24. Carlos I. Mendoza and Guillermo Ramírez-Santiago, “Diffusion-limited star-branched polymers”, Revista Mexicana de Física S52, 1 (2006).
· 23. Gerardo J. Vazquez et al., “Transverse Stark Effect of Electrons in a Hollow Semiconducting Quantum Wire”, Physica E 33, 240 (2006).
2005
· 22. Carlos I. Mendoza and Guillermo Ramírez-Santiago, “Annealing two-dimensional diffusion-limited aggregates”, European Physical Journal B 48, 75 (2005).
· 21. L. Jiménez et al., “Geometrical analysis of the electro-optical effect in nematic droplets”, Physical Review E 72, 051705 (2005).
· 20. J. A. Reyes-Esqueda et al., “Stark effect in a wedge-shaped quantum box”, Physica E 28, 365 (2005).
· 19. Marcelo del Castillo-Mussot et al., “Comparison of electric field effects on carriers”, Physica Status Solidi (c) 2, 3133 (2005).
· 18. Jorge A. Reyes-Esqueda et al., “Stark effect on a geometry defined by a cake slice”, Microelectronics Journal 36, 596 (2005).
· 17. Carlos I. Mendoza et al., “Stark effect dependence on hydrogenic impurity position”, Physical Review B 71, 075330 (2005).
2004
· 16. Gerardo J. Vazquez et al., “Spherical Quantum Dot Under an Electric Field”, Physica Status Solidi (c) 1, S54–S57 (2004).
· 15. Carlos I. Mendoza et al., “Splitting of impurity binding energies”, Physica Status Solidi (c) 1, S74–S77 (2004).
· 14. Carlos I. Mendoza et al., “Electrically controlled total internal reflection”, Physical Review E 70, 062701 (2004).
· 13. Carlos I. Mendoza and Carlos M. Marques, “Fluctuating diffusion-limited aggregates”, Physica A 335, 305–313 (2004).
2003
· 12. G. Montes-H. et al., “Swelling–shrinkage kinetics of MX80 bentonite”, Applied Clay Science 22, 279 (2003).
2002
· 11. Carlos I. Mendoza and Carlos M. Marques, “Scattering from supramacromolecular structures”, Physical Review E 66, 051805 (2002).
2001
· 10. Iván O. Sosa et al., “Calculation of electron-energy-loss spectra”, Physical Review B 63, 144201 (2001).
2000
· 9. Rubén G. Barrera et al., “Electron Energy-loss Spectroscopy in Systems of Polarizable Spheres”, Physica B 279, 29 (2000).
1999
· 8. Carlos I. Mendoza et al., “Electron energy loss in ordered arrays of polarizable spheres”, Physical Review B 60, 13831 (1999).
1998
· 7. Carlos I. Mendoza et al., “Local-field effects at crystalline surfaces”, Physica Status Solidi (a) 170, 349 (1998).
· 6. Carlos I. Mendoza and Marcelo del Castillo-Mussot, “Inhibition of Two-Stream Plasma Instabilities”, Revista Mexicana de Física 44, 513 (1998).
· 5. Carlos I. Mendoza et al., “Energy loss of electrons traveling parallel to the interface”, Physical Review B 57, 11193 (1998).
1997
· 4. Raúl Vázquez Nava et al., “An electron analogy of quantum wells”, Revista Mexicana de Física 43, 661 (1997).
· 3. Ronald Fuchs et al., “Electron energy-loss spectroscopy of inhomogeneous systems”, Physica A 241, 29 (1997).
1996
· 2. Carlos I. Mendoza et al., “Drift current and thermal pressure effects”, Physical Review B 54, 7647 (1996).
1994
· 1. Rubén G. Barrera and Carlos I. Mendoza, “Three-particle correlations in the optical properties of granular composites”, Solar Energy Materials and Solar Cells 32, 463–476 (1994).