Radiation Effects in Nanoparticle Suspensions.
Synthesis of Nanoparticles in Microemulsions. Rivas, M. Blanco, C. Chemical Aspects of Semiconductor Nanocrystals. Nanoparticles with Polymeric Surfaces. Assemblies of Magnetic Particles. Magnetic Nanostructures from Clusters.click
Gold Nanoparticles: Assembly, Supramolecular Chemistry, Quantum
Perez, V. Dupuis, J. Tuaillon-Combes, L. Bardotti, B. Magnetic Thin Films. Fundamentals and Technological Aspects of Carbon Nanotubes. Back Matter Pages About this book Introduction Organized nanoassemblies of inorganic nanoparticles and organic molecules are building blocks of nanodevices, whether they are designed to perform molecular level computing, sense the environment or improve the catalytic properties of a material. Rico Castro, Francisco Javier - Exp.
Torres, Diego F.
Frontmatter - Nanoparticles and Nanostructured Films - Wiley Online Library
HOST institutions. He has published over papers in renowned refereed journals and international conferences and workshops in the area of his research expertise. My expertise and research interests are in the area of Computational Science encompassing Parallel and High Performance Computing, Scalable Algorithms for advanced Computer Architectures, Monte Carlo methods and algorithms. In addition, the research focuses on scalable and fault-tolerant algorithms for petascale architectures and the exascale architecture challenge. I currently lead the Extreme Computing research group at BSC focusing on solving problems with uncertainty on large scale computing systems applying the techniques and methods mentioned above.
Alexandrov, C. Gonzalez Martel, J. Varghese, G. McKee and V. Alexandrov-Technical Manager, Prof. Ulises Cortes, Prof. Federal de Rio de Janeiro Brazil , Univ. Veracruzana Mexico , Univ. Nowadays, there is an increasing demand of systems of small sizes with relevant magnetic properties e.
Here, paramagnetic molecules can provide interesting responses together with homogeneity and variability e. Prins, A. Barreiro, J. Ruitenberg, J. Seldenthuis, N. Aliaga-Alcalde, L. Vandersypen, H. Nano Letters, , 11 11 , M. Fontanet, A. Popescu, X. Fontrodona, M. Rodriguez, I. Romero, F.
Teixidor, C. Vinas, N. Aliaga-Alcalde, E. Chemistry--A European Journal, , 17 47 , S. Sasmal, S. Sarkar, N. Aliaga-Alcalde, S. Inorganic Chemistry , 50 12 , M. Du, Z. Zhang, C. Li, J. Ribas-Arino, N. Aliaga-Alcalde, J. Inorganic Chemistry , 50 15 , P. Bhowmik, H. Nayek, M. Corbella, N. Dalton Transactions , 40 31 , A. Singh Pannu, P.
Kapoor, G. Hundal, R. Kapoor, M. Aliaga-Alcalde, M.
Singh Hundal, Dalton Transactions, , 40 46 , A. Kathalikkattil, K. Bisht, N. Naskar, C. Biswas, B. Guhathakurta, N. Lu, M. I would characterize myself as an interdisciplinary oriented scientist working in the field of cellbiomaterials interaction and tissue engineering.
During the last decade I spent more than 7 years abroad as guest-scientist in Germany, France, Spain and other EU countries performing research in the field of cell-biomaterials interaction. Journal of Bioactive and Biocompatible Polymers, 26, 4, I am working in the field of cell-biomaterials interaction and tissue engineering. On that topic I have published more than 90 original papers and filed 5 patents.
My research interests might be sumarized as follows: Cell-biomaterials interaction Development of provisional extracellular matrix In vitro experimental appoaches reducing animal experiments Tissue engineering Controlled differentiation of mesenchimal stem cells Endothelial cells - in situ endothelization and neovascularization. He has written over 30 research papers on set theory and its applications, as well as some articles for the general public. He is regularly invited to international meetings and conferences.
I work mainly in set theory, an extremely general theory whose objects of study are the abstract infinite sets. Set theory is the strongest and most encompassing theory ever developed, and provides mathematics with its foundation, in the sense that virtually all of mathematics can be formally reduced to it. I apply sophisticated techniques, such as forcing and large cardinals, towards the solution of hard open problems in set theory and other areas of mathematics. More interestingly, it is sometimes possible to prove that a given problem cannot be solved using the standard mathematical tools, and therefore new axioms are required for its solution.
Finding and classifying new axioms, and thereby expanding the frontiers of mathematical reasoning, is also an essential part of set theory, and of my work. Bagaria, Y. Moschovakis, M. Otero, and I. Soskov, Editors. Oberseminar Mathematische Logik. Structural complexity, reflection, and topologies on ordinals.
The Infinity Conference. CRM, Bellaterra. July An introduction to Omega-Logic. Aug Structural reflection and topologies on ordinals. A gentle introduction to the theory of large cardinals.
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