Ritort Farran, Fèlix
Ritort, Felix
Felix Ritort
VIAF ID: 148149196669974792891 ( Personal )
Permalink: http://viaf.org/viaf/148149196669974792891
Preferred Forms
- 100 0 _ ‡a Felix Ritort
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- 100 1 _ ‡a Ritort, Felix
4xx's: Alternate Name Forms (4)
Works
Title | Sources |
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Biophysical properties of single-stranded DNA studied with single-molecule force spectroscopy | |
Calorimetric force spectroscopy experiments in DNA and protein folding | |
Computational study of DNA in non-canonical environment | |
Contribution of active processes to the cytoskeleton dynamics of living cells | |
Diffusion-trapping mechanisms in inhibitory synapses : high density single-molecule-tracking and thermodynamic parameters. | |
A Dual-trap optical tweezer setup for single-molecule manipulations : development and testing | |
Dynamic force spectroscopy and folding kinetics in molecular systems | |
Force-spectroscopy of small ligands binding to nucleic acids | |
Free energy and information-content measurements in thermodynamic and molecular ensembles | |
Kinetic locking and nanometric monitoring of the extension of nucleic acids with high-resolution magnetic tweezers | |
Large scale excitations in disordered systems | |
Mécanisme de diffusion-capture dans les synapses inhibitrices : suivi en molécule unique à haute densité et aspects thermodynamiques | |
Mechanical folding-unfolding of RNA molecules experimental facts and theoretical models | |
Noise-correlation force spectroscopy in molecules and cells | |
Non-equilibrium dynamics in simple models for structural glasses | |
Nonequilibrium fluctuations of a Brownian particle | |
Séminaire Poincaré 2003-2 : L'entropie : samedi 6 décembre 2003 | |
Several aspects on spin-glass theory | |
Single molecule studies in a temperature-jump optical trap | |
Special issue on the proceedings of a workshop on glassy behaviour of kinetically constrained models | |
Statistical and thermodynamical properties of DNA unzipping experiments with optical tweezers | |
Thermodynamics and Kinetics of Nucleic Acids Folding | |
Verrouillage cinétique et suivi nanométrique de l'extension d'acides nucléiques au moyen de pinces magnétiques super-résolues. |