50 – How dimensionality affects the structural anomaly in a core-softened colloid model. L. B. Krott and J. R. Bordin . Submitted (2023).
49 – Molecular Modeling of Aquaporins and Artificial Transmembrane Channels: a mini-review and perspective for plants. J. R. Bordin, A. V. Ilha, P. R. B. Côrtes, W. S. Oliveira, L. A. Pinheiro, E. E. de Moraes, T. G. Grison and M. H. Köhler. Submitted (2023).
48 – Solid-amorphous transition is related to the waterlike anomalies in a fluid without liquid-liquid phase transition. J. R. Bordin and L. B. Krott. Accepted in The Journal of Chemical Physics (2023).
47 – In vitro and mathematical strategies uncover the extracellular matrix and tissue architecture as major determinants in the early steps of invasion mediated by E-cadherin dysfunction. S. Melo, P. Guerrero, M. Moreira-Soares, J. R. Bordin, F. Carneiro, P. Carneiro, M. B. Dias, J. Carvalho, J. Figueiredo, R. Seruca and R. D. M. Travasso. Submitted (2023).
46 – Combining multi-scale simulations and experiments to unveil the adsorption of blue methylene in graphene tridimensional based materials. M. B. Leão, L F. O. Vendrame, S. B. Fagan, I. Z. da Silva, I. M. Jauris J. R. Bordin and C. F. de Matos. Accepted in Molecular Systems Design and Engineering (2023).
45 – Specific surface area versus adsorptive capacity: an application view of 3D graphene-based materials for the removal of emerging water pollutants. M. B. Leão, J. R. Bordin and C. F. de Matos. Water, Air, & Soil Pollution 236, 136. (2023).
44 – Liquid crystal polymer nanocomposites: Challenges and opportunities – Quantum, all-atom and coarse-grained molecular modeling of liquid crystal polymers. M. H. Kohler, M.B. Nolasco and J. R. Bordin. In Liquid Crystal Polymer Nanocomposites. Ed.: P.M. Visakh, A. Semkim and Z. G. Özdemir. Woodhead Publishing/Elsevier (2022).
43 – 2D Patterns in core-softened systems: from sphere to dumbbell colloids. T. P. O. Nogueira and J. R. Bordin. Physica A, 605, 128048 (2022).
42 – Relativistic Dilation and Contraction of the Probabilities of Quantum States of Light at Angular Incidence. D. S. Cardoso and J. R. Bordin. Optik, 267, 169712 (2022).
41 – Classical-Relativistic variability of the inertia of photon displacement mass in the matter and the specific vacuum. D. S. Cardoso and J. R. Bordin. Optik, 260, 169081 (2022).
40 – Phase classification using neural networks: application to supercooled polymorphic core-softened mixtures. V. F. Hernandes, M. S. Marques and J. R. Bordin. Journal of Physics: Condensed Matter, 34, 024002 (2022).
39 – Structure and dynamics of nanoconfined water and aqueous solutions. H. R. Corti, G. Appignanesi, M. Barbosa, J. R. Bordin, C. Calero, G. Camisasca, M. D. Elola, G. Franzese, P. Gallo, A. Hassanali, K. Huang, D. Laria, C. Menéndez, J. M. de Oca, M. P. Longinotti, J. Rodriguez, M. Rovere, D. Scherlis and I. Szleifer. The European Physical Journal E 44, 136 (2021).
38 – Hard core-soft shell particles near repulsive interfaces: interplay between adsorption, aggregation and diffusion. M. S. Marques and J. R. Bordin. Journal of Colloid and Interface Science Open, 4, 100029 (2021).
37 – Core-softened water-alcohol mixtures: the solute-size effects. M. S. Marques, V. F. Hernandes and J. R. Bordin. Physical Chemistry Chemical Physics, 23, 16213-16223 (2021).
36 –Three Dimensional (3D) and Lamellar Graphene Oxide Membranes for Water Purification. M. H. Köhler, M. B. Leão, J. R. Bordin and C. F. de Matos. In Two-Dimensional (2D) Nanomaterials in Separation Science. Editor: Rasel Das. Springer International Publishing (2021).
35 – Structural behavior of a two length scale core-softened fluid in two dimensions. D. S. Cardoso, V. F. Hernandes, T. P. O. Nogueira and J. R. Bordin. Physica A, 566, 125628 (2021).
34- Competing interactions near the liquid-liquid phase transition of core-softened water/methanol mixtures. M. S. Marques, V. F. Hernandes, E. Lomba and J. R. Bordin. Journal of Molecular Liquids, 320, 114420 (2020).
33 – Processo de Obtenção de Macrostruturas Porosas de Grafeno e Partículas de Prata (Process to obtain Graphene and Silver Nanoparticle Porous Macrostructures). C. F. Matos, P. C. C. da Rosa and J. R. Bordin. Patente: Privilégio de Inovação. Número do registro: BR10202001803, Instituição de registro: INPI – Instituto Nacional da Propriedade Industrial. Depósito PCT: 03/09/2020
32 – Processo de Obtenção de Estruturas Tridimensionais baseadas em Grafeno (Process to obtain Graphene Based Tridimensional Structures). C. F. Matos, M. B. Leão and J. R. Bordin. Patente: Privilégio de Inovação. Número do registro: BR10202001005, Instituição de registro: INPI – Instituto Nacional da Propriedade Industrial. Depósito: 20/05/2020
31 – Tracer diffusion in crowded solutions of sticky polymers. T. P. O. Nogueira, H. O. Frota, F. Piazza and J. R. Bordin. Physical Review E 102, 032618 (2020).
30 – A description of the formation and growth processes of CaTiO3 mesocrystals: A joint experimental and theoretical approach. M. L. Moreira, J. R. Bordin, J. M. Andrés, J. A. Varela and E. Longo. Molecular Systems Desing & Engineering, 5, 1255 – 1266 (2020).
29 – Salt parameterization can drastically affect the results from classical atomistic simulations of water desalination by MoS2 nanopores. J. P. K. Abal, J. R. Bordin and M. C. Barbosa. Physical Chemistry Chemical Physics 22, 11053-11061 (2020).
*Correction: Salt parameterization can drastically affect the results from classical atomistic simulations of water desalination by MoS2 nanopores. J. P. K. Abal, J. R. Bordin and M. C. Barbosa. Physical Chemistry Chemical Physics, 22, (2020).
28 – Adhesion modulates cell morphology and migration within dense fibrous networks. M. Moreira-Soares, Susana Pinto-Cunha, J. R. Bordin and R. D. M. Travasso. Journal of Physics: Condensed Matter, 32, 314001 (2020).
27 – Waterlike anomalies in hard core-soft shell nanoparticles using a effective potential approach: pinned vs adsorbed polymers. M. S. Marques, T. P. O. Nogueira, R. F. Dillenburg, M. C. Barbosa and J. R. Bordin. Journal of Applied Physics 127, 054701 (2020).
26 – Distinct self-assembly aggregation patterns of nanorods with decorated ends: a simple model study. J. R. Bordin. Fluid Phase Equilibria 499, 112251 (2019).
25 – Water in nanotubes: the surface effect. M. H. Köhler, J. R. Bordin, C. F. de Matos and M. C. Barbosa. Chemical Engineering Science 203, 54-67. (2019).
24 – CO2 and SO2 pressure-driven adsorption by 3D graphene nanoslits: a molecular dynamics study. A. C. Borges, M. H. Köhler, and J. R. Bordin. Journal of Nanomaterials, 2019, Article ID 9594816. (2019).
23 – Ion Flocculation in Water: From Bulk to Nanoporous Membrane Desalination. M. H. Köhler, J. R. Bordin and M. C. Barbosa. Jounal of Molecular Liquids 277, 516-521 (2019).
22 – Surface, density and temperature effects on the water diffusion and structure inside narrow nanotubes. M. H. Köhler and J. R. Bordin. The Journal of Physical Chemistry C 122, 6684–6690 (2018).
21 – 2D nanoporous membrane for cation removal from water: effects of ionic valence, membrane hydrophobicity and pore size. M. H. Köhler, J. R. Bordin and M. C. Barbosa. The Journal of Chemical Physics 148, 222804 (2018).
20 – Waterlike anomalies in a 2D core-softened potential. J. R. Bordin and M. C. Barbosa. Physical Review E 97, 022604 (2018).
19 – Distinct aggregation patterns and fluid porous phase in a 2D model for colloids with competitive interactions. J. R. Bordin. Physica A, 495, 215-224 (2018).
18 – Structure and dynamics of water inside hydrophobic and hydrophilic nanotubes. M. H. Köhler, J. R. Bordin, L. B. da Silva and M. C. Barbosa. Physica A 490, 331-337 (2018).
17 – Breakdown of the Stokes-Einstein water transport through narrow hydrophobic nanotubes. M. H. Köhler, J. R. Bordin, L. B. da Silva and M. C. Barbosa. Physical Chemistry Chemical Physics 19, 12921-12927 (2017).
16 – How Competitive Interactions Affect the Self-Assembly of Confined Janus Nanoparticles. J. R. Bordin and L. B. Krott. The Journal of Physical Chemistry B 121, 4308–4317 (2017).
15 – Flow and structure of fluids in functionalized nanopores. J. R. Bordin and M. C. Barbosa. Physica A 467, 137-147 (2017).
14 – Anomalous diffusion and diffusion anomaly in confined Janus dumbbells. L. B. Krott, C. Gavazonni and J. R. Bordin. The Journal of Chemical Physics 145, 244906 (2016).
13 – Confinement effects on the properties of Janus dimers. J. R. Bordin and L. B. Krott. Physical Chemistry Chemical Physics 18, 28740-28746 (2016).
12 – Static polarizability effects on counterion distributions near charged surfaces: a coarse-grained Molecular Dynamics study employing the Drude model. J. R. Bordin, R. Podgornik and C. Holm. European Physical Journal Special Topics. 225, 1693-1705 (2016).
11 – Waterlike Features, Liquid-Crystal Phase and Self-Assembly in Janus Dumbbells. J. R. Bordin. Physica A, 459, 1-8. (2016).
10 – Self-assembly and Waterlike Anomalies in Janus Nanoparticles. J. R. Bordin, L. B. Krott and M. C. Barbosa. Langmuir, 31, 8577-8582. (2015).
9 – Effects of confinement on anomalies and phase transitions of core-softened fluids. L. B. Krott, J. R. Bordin, N. M. Barraz Jr and M. C. Barbosa. The Journal of Chemical Physics, 142, 134502 (2015).
8 – New structural anomaly induced by nanoconfinement. L. B. Krott, J. R. Bordin and M. C. Barbosa. The Journal of Physical Chemistry B, 119, 291-300 (2015).
7 – High pressure induced phase transition and superdiffusion in anomalous fluid confined in flexible nanopores. J. R. Bordin, L. B. Krott and M. C. Barbosa. The Journal of Chemical Physics 141, 144502 (2014).
6 – Enhanced flow of core-softened fluids through narrow nanotubes. J. R. Bordin, J. S. Soares Jr., A. Diehl and M. C. Barbosa. The Journal of Chemical Physics 140, 194504 (2014).
5 – Surface Phase Transition in Anomalous Fluid in Nanoconfinement. J. R. Bordin, L. B. Krott and M. C. Barbosa. The Journal of Physical Chemistry C. 118, 9497–9506 (2014).
4 – Distinct dynamical and structural properties of a core-softened fluid when confined between fluctuating and fixed walls. L. B. Krott and J. R. Bordin.The Journal of Chemical Physics 139, 154502 (2013).
3 – Relation between flow enhancement factor and structure for core-softened fluids inside nanotubes. J. R. Bordin, A. Diehl and Marcia C. Barbosa. The Journal of Physical Chemistry B, 117, 7047-7056 (2013).
2 – Diffusion Enhancement in Core-softened fluid confined in nanotubes. J. R. Bordin, A. B. de Oliveira, A. Diehl and Marcia C. Barbosa. The Journal of Chemical Physics 137,084504 (2012).
1 – Ion fluxes through nanopores and transmembrane channels. J. R. Bordin, A. Diehl, M. C. Barbosa, and Y. Levin. Physical Review E 85, 031914 (2012).
Cover Issue

From J. Phys: Cond. Matt., 32, 314001 (2020)