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Design of Fast Microfluidic Protein Folding Devices by a Semi-Deterministic Global Optimization Algorithm

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dc.book.titleXVIIe congrès français de mécanique 2005 [Ressource électronique] : [actes des conférences, du 29 août au 2 septembre 2005, Troyes]
dc.contributor.authorIvorra, Benjamín Pierre Paul
dc.contributor.authorMohammadi, Bijan
dc.contributor.authorSantiago, Juan G.
dc.contributor.authorHertzog, David E.
dc.date.accessioned2023-06-20T13:41:49Z
dc.date.available2023-06-20T13:41:49Z
dc.date.issued2005
dc.description.abstractA new semi-deterministic global optimization algorithm is used for the design of a fast-micro-mixer. Our aim is to reduce the mixing time for protein folding by modifying the device shape.
dc.description.departmentDepto. de Análisis Matemático y Matemática Aplicada
dc.description.facultyFac. de Ciencias Matemáticas
dc.description.refereedTRUE
dc.description.statuspub
dc.eprint.idhttps://eprints.ucm.es/id/eprint/29742
dc.identifier.isbn2-9524929-0-5
dc.identifier.urihttps://hdl.handle.net/20.500.14352/53420
dc.language.isoeng
dc.publication.placeTroyes
dc.publisherUniversité de technologie de Troyes
dc.rights.accessRightsopen access
dc.subject.cdu519.863
dc.subject.cdu532.5
dc.subject.keywordShape optimization
dc.subject.keywordGlobal optimization
dc.subject.keywordMicrofluidic mixers
dc.subject.ucmHidrodinámica
dc.subject.ucmInvestigación operativa (Matemáticas)
dc.subject.unesco3301.12 Hidrodinámica
dc.subject.unesco1207 Investigación Operativa
dc.titleDesign of Fast Microfluidic Protein Folding Devices by a Semi-Deterministic Global Optimization Algorithm
dc.title.alternativeUn nouvel algorithme d’optimisation globale est utilisé pour la conception d’un mélangeur microfluidique. Notre objectif est de modifier la forme de ce dispositif afin de réduire le temps de mélange pour le repliement de protéines.
dc.typebook part
dcterms.references[1] Roder H. Proceedings of the National Academy of Sciences of the United States of America, 101 :1793–1794, 2004. [2] C.K. Chan, Y. Hu, S. Takahashi, D. L. Rousseau, and W. A. Eaton. Proceedings of the National Academy of Sciences of the United States of America, 94 :1779–1784, 1997. [3] J. P. Brody, P. Yager, R.E. Goldstein, and R.H. Austin. Biophysical Journal, 71 :3430–3441, 1996. [4] R. Russell, S. Ian, M. W. T. Millett, W. Lisa, Kwok, Bradley, Nakatani, M. Sol, S. G. J. Gruner, V. P. S. Mochrie, D. H. Doniach, and Pollack Lois. Proceedings of the National Academy of Sciences of the United States of America, 99 :4266–4271, 2002. [5] J. B. Knight, A. Vishwanath, J. P. Brody, and R. H. Austin. Physical Review Letters, pages 3863–3866, 1998. [6] E. Hertzog, X. Michalet, M. Jager, X. Kong, J. Santiago, J. Weiss, and O. Bakajin. Femtomole mixer for microsecond kinetic studies of protein folding. Proceedings of the National Academy of Sciences of the USA, Accepted, 2005. [7] B. Mohammadi and J-H. Saiac. Pratique de la simulation numérique. Dunod, 2002. [8] B. Ivorra, B. Mohammadi, L. Dumas, Y. Moreau, G. Pille, and O. Durand. Apodisation de fibres à réseaux de bragg pour la synthèse de codes cdma spectral. IEEE Lasers and Electro-Optics Society French Chapter, Conference COSTO04, 2004. [9] N. Darnton, O. Bakajin, R. Huang, B. North, J. Tegenfeldt, E. Cox, J. Sturn, and R. H. Austin. Condensed matter. Journal of Physics, 13 :4891–4902, 2001.
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