Open Access
Issue |
Nat. Sci. Soc.
Volume 22, Number 2, avril-juin 2014
|
|
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Page(s) | 103 - 113 | |
DOI | https://doi.org/10.1051/nss/2014022 | |
Published online | 18 July 2014 |
- Anastas, P.T., 2012. Fundamental changes to EPA’s research enterprise: The path forward, Environmental Science & Technology, 46, 2, 580-586. [CrossRef] [PubMed] [Google Scholar]
- Anastas, P.T., Williamson, T.C., 1996. Green chemistry: An overview, in Anastas, P.T., Williamson, T.C., (Eds), Green Chemistry: Designing for the Environment, ACS Symposium Series 626, Washington D.C., ACS Publications, 1-17. [Google Scholar]
- Anastas, P.T., Warner, J.C., 1998. Green Chemistry, Theory and Practice, Oxford, Oxford University Press. [Google Scholar]
- Bensaude-Vincent, B., 2013. Chemistry as techno-science?, in Llored, J.-P., (Ed.), The Philosophy of Chemistry, Newcastle, Cambridge scholar publishing, 330-342. [Google Scholar]
- Bliard, C., Nieddu, M., 2011. Communities and creation of knowledge as common goods in doubly green chemistry. Communication at The 3rd International Conference on Biodegradable and Biobased Polymers, Strasbourg, 29-31 August. [Google Scholar]
- Bozell, J.J., 2008. Feedstocks for the future: Biorefinery production of chemicals from renewable carbon, CLEAN - Soil, Air, Water, 36, 8, 641-647. [CrossRef] [Google Scholar]
- Christian, D., Jolly, G., Grenier de March, G., Steinmetz, V., 2007. La bioraffinerie : un concept qui fait son chemin, Biofutur, 282, 20-23. [Google Scholar]
- Clark, J.H., 2002. Introduction, in Clark, J.H., Macquarrie, D.J. (Eds.), Handbook of Green Chemistry and Technology, Oxford, Blackwell, 1-9. [Google Scholar]
- Dosi, G., 1988. The nature of the innovative process, in Dosi, G., Freeman, C., Nelson, R., Silverberg, G., Soete, L. (Eds), Technical Change and Economic Theory, London/New York, Pinter Publishers, 221-238. [Google Scholar]
- Dumez, H., Jeunemaître, A., 2005. La démarche narrative en économie, Revue Économique, 56, 4, 983-1005. [CrossRef] [Google Scholar]
- Epicoco, M., Oltra, V., Saint Jean, M., 2012. Mapping the scientific knowledge of the Green Chemistry community, Cahiers du GREThA, 10, http://cahiersdugretha.u-bordeaux4.fr/2012/2012-10.pdf [Google Scholar]
- Evon, P., 2008. Nouveau procédé de bioraffinage du tournesol plante entière par fractionnement thermo-mécano-chimique en extrudeur. Thèse, Université de Toulouse. [Google Scholar]
- Fengwei, X., Long, Y., Hongshen, L., Ling, C., 2006. Starch modification using reactive extrusion, Starch/Stärke, 58, 131-139. [CrossRef] [Google Scholar]
- Faucheux, S., Nicolaï, I., 1998. Les firmes face au développement soutenable : changement technologique et gouvernance au sein de la dynamique industrielle, Revue d’Économie Industrielle, 83, 127-146. [CrossRef] [Google Scholar]
- Finlay, M.-R., 2004. Old efforts at new uses: A brief history of chemurgy and the American search for biobased materials, Journal of Industrial Ecology, 7, 3-4, 33-46. [Google Scholar]
- Gallezot, P., 2007. Process option for converting renewable feedstocks to bioproducts, Green Chemistry, 9, 295-302. [CrossRef] [Google Scholar]
- Gallezot, P., 2012. Critical review: Conversion of biomass to selected chemical products, Chemical Society Reviews, 41, 1538-1558. [CrossRef] [PubMed] [Google Scholar]
- Garnier, E., 2012. Une approche socio-économique de l’orientation des projets de recherche en chimie doublement verte. Thèse de doctorat ès Sciences économiques, Université de Reims Champagne Ardenne. [Google Scholar]
- Godard, O., 1990. Environnement, modes de coordination et systèmes de légitimité : analyse de la catégorie de patrimoine naturel, Revue Économique, 2, 215-242. [Google Scholar]
- Joly, P.-B., 2010. On the economics of techno-scientific promises, in Akrich, M., Barthe, Y., Muniesa, F., Mustar, P. (Eds.), Débordements. Mélanges offerts à Michel Callon, Paris, Presses des Mines, 203-222. [Google Scholar]
- Jouzel, J.-N., Lascoumes, P., 2011. Le règlement REACH : une politique européenne de l’incertain. Un détour de régulation pour la gestion des risques chimiques, Politique Européenne, 1, 33, 185-214. [Google Scholar]
- Kemp, R., 2010. Sustainable technologies do not exist!, Ekonomiaz. Revista Vasca de Economia, 75, 2-17. [Google Scholar]
- Kuhn, T.S., 1983. La Structure des révolutions scientifiques, Paris, Flammarion (édition anglaise originale 1962). [Google Scholar]
- Lancaster, M., 2002. Green Chemistry, an Introductory Text, Cambridge, Royal Society of Chemistry. [Google Scholar]
- Linthorst, J.A., 2010. An overview: Origins and development of green chemistry, Foundations of Chemistry, 12, 55-68. [Google Scholar]
- Marquardt, W., Harwardt, A., Voll, A., 2010. The biorenewables opportunity: toward next generation process and product systems, AIChE, 56, 9, 2228-2235. [Google Scholar]
- Maxim, L. (Ed.), 2011. La Chimie durable, au-delà des promesses, Paris, CNRS Éditions. [Google Scholar]
- Maxim, M., Rico-Lattes, I. 2013. Sustainable chemistry, in Llored J.-P. (Ed.), The Philosophy of Chemistry, Newcastle, Cambridge Scholar publishing, 640-658. [Google Scholar]
- Moreau, A., Dedianne, M.C., Letrilliart, L., Le Goaziou, M.F., Labarère, J., Terra, J.L., 2004. S’approprier la méthode du focus group, La Revue du Praticien. Médecine Générale, 18, 645, 382-384. [Google Scholar]
- Nieddu, M., 2007. Le patrimoine comme relation économique, Économie Appliquée, 60, 3, 31-57. [Google Scholar]
- Nieddu, M., Garnier, E., Bliard, C., 2010. L’émergence d’une chimie doublement verte, Revue d’Économie Industrielle, 132, 4, 53-84. [CrossRef] [Google Scholar]
- Nieddu, M., Vivien, F.-D., 2010. Patrimoine, territoire et développement durable, in Zuindeau, B. (Ed.), Développement durable et territoire, Villeneuve-d’Ascq, Presses universitaires du Septentrion, 133-142. [Google Scholar]
- Nieddu, M., Garnier, E., Bliard, C., 2014. Patrimoines productifs collectifs versus exploration/exploitation : le cas de la bioraffinerie, Revue Économique, à paraître (disponible en prépublication sur http://www.cairn.info/revue-economique-2014-0.htm). [Google Scholar]
- Nill, J., Kemp, R., 2009. Evolutionary approaches for sustainable innovation policies: From niches to paradigm?, Research Policy, 38, 4, 668-680. [Google Scholar]
- Oltra, V., Saint Jean, M., 2009. Innovations environnementales et dynamiques industrielles, Cahiers du GREThA, 22, Université de Bordeaux IV (online: http://cahiersdugretha.u-bordeaux4.fr/2009/2009-22.pdf). [Google Scholar]
- Pestre, D., 2006. Introduction aux Science Studies, Paris, La Découverte. [Google Scholar]
- Poliakoff, M., Fitzpatrick, J.M., Farren, T.M., Anastas, P.T., 2002. Green chemistry: Science and politics of change, Science, 297, 5582, 807-810. [Google Scholar]
- Star-Colibri, 2011. European Biorefinery Joint Strategic Research Roadmap (online: http://www.star-colibri.eu/files/files/roadmap-web.pdf). [Google Scholar]
- Trost, B.M., 1991. The Atom Economy: A search for synthetic efficiency, Science, 254, 5037, 1471-1477. [Google Scholar]
- Verhée, R., 2010. Dilemma: Petrochemistry and oleochemistry as resources for fuel and oleochemicals, European Journal of Lipid Science and Technology, 112, 4, 427. [CrossRef] [Google Scholar]
- Woodhouse, E.J., Breyman, S., 2005. Green chemistry as social movement?, Technology & Human Values, 30, 2, 199-222. [CrossRef] [Google Scholar]
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