Adsorption, aggregation and fractal growth phenomena

1996-2005

  • Trias M.; E. Vilaseca. 2004. Brownian dynamics simulation of nucleation and growth processes at electrode surfaces: instantaneous nucleation. J. Electroanal. Chem. 569:95-109.

  • Vilaseca, E.; P.P. Trigueros; J.L. Garcés; F. Mas. 1998. A computer simulation model to study the diffusion controlled nucleation and growth processes in electrode surfaces. Journal of Electroanalytical Chemistry 458:55-72.

  • Meléndez, R.; E. Meléndez-Hevia; J. Mach; F. Mas; M. Cascante. 1998. Physical constrains in the synthesis of glycogen which influence its structural homogeneity. A two-dimensional approach”, Biophysical Journal 75:106-114. doi: http://dx.doi.org/10.1016/S0006-3495(98)77498-3

1991-1995

  • Mach, J.; F. Mas; F. Sagués. 1995. Two representations in multifractal analysis. Journal of Physics A-Mathematical and General 28:5607-5622.

  • López-Tomàs, L.; J. Mach; P.P. Trigueros; F. Mas; J. Claret; F. Sagués. 1995. Quasi-Twodimensional Electrodeposition: A Summarized Review on Morphology and Growth Mechanisms. Chaos Solitons & Fractals 6:287-294.

  • Sagués, F.; L. López-Tomàs; J. Mach; R. Reigada; P.P. Trigueros; E. Vilaseca; J. Claret; F. Mas. 1994. Disordered Grown Systems: Generation and Fractal Analysis. Electrodeposition. International Journal of Quantum Chemistry 52:375-394.

  • Cecília, J.; J. Galceran; J. Salvador; F. Mas; J. Puy. 1994. Numerical Procedures in Electrochemical Simultation. International Journal of Quantum Chemistry 51:357-367.

  • Mach, J.; F. Mas; F. Sagués. 1994. Laplacian Multifractality of the Growth Probability Distribution in Electrodeposition. Europhysics Letters 25(4):271-276.

  • Trigueros, P.P.; J. Mach; J. Claret; F. Mas; F. Sagués. 1993. Fractal electrodeposits: morphology, growth dynamics and diffusion-limited response functions. Fractals-Complex Geometry Patterns and Scaling in Nature and Society 1(3):439- 450.

  • Trigueros, P.P.; F. Mas; J. Claret; F. Sagués; J. Galceran; J. Puy. 1993. Monte Carlo simulation of diffusion-controlled response functions at 2D experimental rough electrodes. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 348:221-246.

  • López-Tomàs, L.; J. Claret; F. Mas; F. Sagués. 1992. Agregation under a forced convective flow. Physical Review B 46(12):11495-11500.

  • Trigueros, P.P.; J. Claret; F. Mas; F. Sagués. 1992. Some effects of cell dimensions on zinc electrodeposits. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 328:165-178.

  • Nagatani, T.; F. Sagués; J. Claret; F. Mas; P.P. Trigueros; J. Mach. 1992. Effect of drift on segregation in two-component diffusion-limited aggregation. Physical Review A 45(6):3896-3902.

  • Mas, F.; F. Sagués. 1992. Scaling Properties of the Growth Probability Distribution in Electrochemical Deposition. Europhysics Letters 17(6):541-546.

  • Trigueros, P.P.; J. Claret; F. Mas; F. Sagués. 1991. Pattern morphologies in zinc electrodeposition. Journal of Electroanalytical Chemistry and Interfacial Electrochemistr 312:219-235.

1986-1990

  • Mas F.; J.C. Paniagua; J. Puy; J. Salvador; E. Vilaseca. 1990. Comment on deuterium nuclear fusion at room temperature: a pertinent inequality on barrier penetration. J. Chem. Phys. 93:6118-6119.

  • Sagués, F.; F. Mas; M. Vilarrasa; J.M. Costa. 1990. Fractal electrodeposits of zinc and copper. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 278:351-360.

  • Hernàndez-Borrell, J.; F. Mas; J. Puy. 1990. A theoretical approach to describe monolayer-liposome interaction. Biophysical Chemistry 36:47-55.

  • Vilaseca E.; F. Illas. 1989. Monte Carlo study of the vibrational frequency of halogen atoms chemisorbed on Ag (100): frequency vs coverage relationships. Chem. Phys. Lett. 159:165-170.

  • Puy, J.; M. Pla; F. Mas; F. Sanz. 1988. Adsorption in double potential step chronocoulometry. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 241:89-104.

  • Guaus, E.; F. Mas; J. Puy; F. Sanz. 1987. A formalism for performing chronocoulometry at a stationary plenar or spherical electrode. Part I. Theoretical treatment with Langmuirian adsorption. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 224:1-26.

1981-1985

  • Mas, F.; J. Puy; F. Sanz; J. Virgili. 1985. Study of a simple redox system with adsorption of both reactant and productat the DME when a time dependent potential is applied. Pulse polarography. IV.- Langmurian adsorption in normal pulse polarography. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 183:73-89.

  • Sanz, F.; F. Mas; J. Puy; J. Virgili. 1985. Study of a simple redox system with adsorption of both reactant and productat the DME when a time dependent potential is applied. Pulse polarography. III.- Langmurian adsorption in differential pulse polarography. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 183:57-72.

  • Mas, F.; J. Puy; F. Sanz; J. Virgili. 1985. Study of a simple redox system with adsorption of both reactant and productat the DME when a time dependent potential is applied. Pulse polarography. II.- Langmuirian adsorption. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry183:41-56.

  • Puy, J.; F. Mas; F. Sanz; J. Virgili. 1985. Study of a simple redox system with adsorption of both reactant and product at the DME when a time dependent potential is applied. Pulse polarography. I. Theoretical treatment. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 183:27-39.

  • Puy, J.; F. Mas; F. Sanz; J. Virgili. 1983. Potentiostatic reversible reactions when both reactant and product are adsorbed at the DME. II.- Langmuirian and Frumkinian adsorption. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 158:231-252.

  • Mas, F.; J. Puy; F. Sanz; J. Virgili. 1983. Potentiostatic reversible reactions when both reactant and product are adsorbed at the DME. I.- Theoretical treatment. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 158(2):217-230.