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Modelling dishes and exploring culinary ‘precisions’: the two issues of molecular gastronomy

Published online by Cambridge University Press:  08 March 2007

Hervé This*
Affiliation:
INRA Group of Molecular Gastronomy, Laboratory for Chemistry of Molecular Interactions, Collège de France, 11 place Marcellin Berthelot, 75 005, Paris, France
*
*Corresponding author: Dr Hervé This, fax +33 1 44 27 13 56, email [email protected]
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Abstract

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The scientific strategy of molecular gastronomy includes modelling ‘culinary definitions’ and experimental explorations of ‘culinary precisions’. A formalism that describes complex dispersed systems leads to a physical classification of classical sauces, as well as to the invention of an infinite number of new dishes

Type
Research Article
Copyright
Copyright © The Nutrition Society 2005

References

Académie des gastronomes Académie culinaire de France (1991) L'art des sauces. Paris: J. T. Lanore.Google Scholar
Anonymous (1905) Anonymous le livre de cuisine de Tante Colette. Paris: François Tedesco.Google Scholar
Atkins, PW (1998) Physical Chemistry. New York: Freeman and Co.Google Scholar
Belitz, HD & Grosch, W (1999) Food Chemistry, Heidelberg: Springer Verlag.CrossRefGoogle Scholar
Bernardi, M, Viart, M, Fouret, M & Délan, M (1853) Le cuisinier national de la ville et de la campagne (ex Cuisinier royal). augmenté de 200 articles nouveaux, p. 49. Paris: Gustave Barbu.Google Scholar
Blanc, R, Kurti, N & This, H (1994) Blanc Mange. London: BBC Books.Google Scholar
Bloch, O & Von Wartburg, W (1975) Dictionnaire étymologique de la langue française, p.221. Paris: Presses universitaires de France.Google Scholar
Carême, MA (1847) L'Art de la Grande Cuisine française t3, p.481. Paris: Kerangue et Pollies.Google Scholar
Cotterill, OJ (1973) Egg Science and Technology. [Stadelman, WJ and Cotterill, OJ, editors]. Westport, CT: AVI Publishing.Google Scholar
Creighton, TE (1983) Proteins. New York: WC Freeman and Co.Google Scholar
Darenne, E & Duval, E (1974) Traité de pâtisserie moderne, 5860. Paris: Flammarion.Google Scholar
De Gennes, PG (1997) Soft interfaces The 1994 Dirac Memorial Lecture, Cambridge: Cambridge University Press.CrossRefGoogle Scholar
De Gennes, PG (1999) La matière molle La juste argile. [Daoud, M and Williams, C, editors]. Paris: EDP Sciences.Google Scholar
De Gennes, PG, Brochard-Wyart, F & Quéré, D (2002) Gouttes, bulles, perles et ondes, pp.0. Paris: Belin.Google Scholar
Dickinson, E (1994) Emulsions stability Food Hydrocolloids, Structure, Properties and Functions. [Nishinari, K and Doi, E, editors]. New York: Plenum Press.Google Scholar
Djabourov, M (1988) Architecture of gelatine gels.. Contemp Phys 29 273297.CrossRefGoogle Scholar
Everett, DH (1988) Basic Principles in Colloid Science. London: Royal Society of Chemistry.CrossRefGoogle Scholar
Galileo, Galilei (1623) L'essayeur Galilée ou l'avenir de la science. pp.133134. [Fritsch, W, editors]. Paris: Seghers.Google Scholar
Gauthier-Jacques, A, Bortlik, K & Han, H (2001) Improved method to track chlorophyll degradation. J Agric Food Chem 49 11171122CrossRefGoogle Scholar
Gouffé, J (1867)(new edition 1988) Le livre de cuisine. Paris: Henri Veyrier.Google Scholar
Goupy, P, Amiot, MJ & Aubert, S et al. (1995) Apple phenolic compounds and enzymatic oxidation in model solutions by apple polyphenoloxidases Polyphenols 94, 183184. Paris: Inra editions.Google Scholar
Gringoire, L & Saulnier, T (1901) Répertoire général de cuisine. Paris: Flammarion.Google Scholar
Grotte, M, Duprat, F & Loonis, D et al. (2000) Aspects des meutrissures des pommes.. Science des aliments 20 575590.CrossRefGoogle Scholar
Hiemnez, PC (1986) Principles of Colloid and Surface Chemistry. New York: Marcel Dekker Inc.Google Scholar
Hunter, RJ (1986) Foundations of Colloid Science. Oxford: Oxford University Press.Google Scholar
Largeault, J (1988) Principes classiques d'interprétation de la nature 28 Paris Librairie philosophique Vrin/Institut interdisciplinaire d'études épistémologiquesGoogle Scholar
(1988) Larousse Gastronomique Paris LarousseGoogle Scholar
Lavoisier, AL (1782) Considérations générales sur la dissolution des métaux dans les acides, Mémoires de l'Académie des sciences Oeuvres complètes 509527Google Scholar
Lehn, JM (1995) La chimie supramoléculaire. Weinheim: VCH.CrossRefGoogle Scholar
Lopez, C, Bourgaux, C & Lesieur, P, et al. (2002)Crystalline structures formed in cream and anhydrous milk fat at 4°C Lait 82, pp.317335Google Scholar
Lyklema, J (1991) Fundamentals of Interface and Colloid Science. London: Academic Press.Google Scholar
Poincaré, H (1900) La valeur de la science. Paris: Flammarion.Google Scholar
Saint, Ange M (1925) La bonne cuisine de Madame Saint Ange Rappelons que, pour la manipulation des fruits rouges, l'emploi de tout ustensile étamé doit être écarté, pp.954. Paris: Larousse.Google Scholar
Simmen, B & Hladik, CM (1998) Sweet and bitter taste discrimination in primates: scaling effects across species.. Folia Primatol 69, 251257.CrossRefGoogle ScholarPubMed
Sztehlo, A (1994) Investigation of the structure of ice cream by light microscopy.. Eur Microsc Anal 5, 2731.Google Scholar
This, H (1994) La cuisson: usages, tradition et science La cuisson des aliments 7e rencontres scientifiques et technologiques des industries alimentaires, Agoral 94 13 – 21.Google Scholar
This H (1995a)La gastronomie moléculaire et physique University Paris VI PhD Thesis.Google Scholar
This, H (1995b) La gastronomie moléculaire. L'Actualité chimique 6, 4246.Google Scholar
This, H (1996a) Can a cooked egg white be ‘uncooked’?. The Chemical Intelligencer 10, 88.Google Scholar
This, H (1996b) Le chocolat Chantilly. Pour la Science 230, 20.Google Scholar
This, H (1999) L'oeuf de 100 ans. Pour la Science 264, 8.Google Scholar
This, H (2002) Molecular gastronomy. Angew Chem Int Ed Engl 41, 8388.3.0.CO;2-F>CrossRefGoogle ScholarPubMed
This, H (2003) La gastronomie moléculaire. Science des aliments 23, 187198.CrossRefGoogle Scholar
This, H & Conticini, C (1998) Toques à la loupe France 5 (formerly la Cinquième programme)Google Scholar
This, H & & Gagnaire, P (2003) http://www.pierre-gagnaire.com.Google Scholar
This, H & Kurti, N (1994) Physics and chemistry in the kitchen. Sci Am 270, 4450.Google Scholar
Vadehra, DV & Nath, KR (1973) Eggs as a source of protein. CRC Crit Rev Food Sci Technol 4, 193309.CrossRefGoogle Scholar