Horacio Serna
Polish Academy of Sciences
12 Papers
22 Citations
Horacio Serna is an academic researcher from Polish Academy of Sciences. The author has contributed to research in topics: Monte Carlo method & Gyroid. The author has an hindex of 4, co-authored 9 publications. Previous affiliations of Horacio Serna include National University of Colombia.
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Papers
Thermodynamic and morphological characterization of Turing patterns in non-isothermal reaction-diffusion systems.
TL;DR: Results show that it is possible to induce transitions between Turing patterns of different morphologies by regulating the temperature, and that these transitions take place at a lower entropy generation value compared to other parameters, such as kinetic constants and reactant fluxes.
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The influence of confinement on the structure of colloidal systems with competing interactions
TL;DR: This work investigates how the structure of the colloidal fluid can be modified by confinement in channels with different cross-section geometries and sizes, paying particular attention to the hexagonal cylindrical phase since it is the most susceptible to form new structures from.
Patterns in nature: more than an inspiring design
Horacio Serna,Daniel Barragán +1 more
- 09 Oct 2017
TL;DR: In this paper, the authors focus on aspectos fisico-quimicos for mostrar como el estudio de los patrones espacio-temporales se convirtio en un area de gran interes e investigacion en ciencias naturales.
Formation and internal ordering of periodic microphases in colloidal models with competing interactions.
TL;DR: This study investigates the phase behaviour of a model system that stabilizes a cluster-crystal, a cylindrical and a lamellar phase at low temperatures and indicates that, for the chosen model parameters, the three periodic microphases are kinetically accessible from the fluid phase.
Self-Assembly of Optimally Packed Cylindrical Clusters inside Spherical Shells
TL;DR: In this paper , a colloidal system with competing interactions under confinement in narrow spherical shells at thermodynamic conditions at which the hexagonal phase of cylindrical clusters is stable in bulk was studied.