Bibliografia

Principal

  • - van den Bergh, Jeroen C.J.M., Albert Faber, Annemarth M. Idenburg and Frans H. Oosterhuis (2007), Evolutionary Economics and Environmental Policy: Survival of the Greenest, Edward Elgar. - OECD (2011), Green Growth Studies: Fostering Innovation for Green Growth, Paris, OECD. - Marinova, Dora, David Annandale and John Phillimore (2007), The International Handbook on Environmental Technology Management, Edward Elgar. - Jolly, Adam (ed.) (2010), Clean Tech Clean Profits: Using Effective Innovation and Sustainable Business Practices to Win in the New Low-carbon Economy, Kogan Page. - Geels, Frank, Marko Hekkert and Staffan Jacobsson (2011), The Dynamics of Sustainable Innovation Journeys, Routledge. - Foxon, Timothy J., Jonathan Kohler and Christine Oughton (2008), Innovation for a Low Carbon Economy: Economic, Institutional and Management Approaches, Edward Elgar. - EC (2011), EUROPE 2020 - Europe 2020 Flagship Initiative - A resource-efficient Europe, COM(2011) 21, Bruxelas. :

Secundária

  • - Wustenhagen, R., Wolsink, M., e Burer, M. J. (2007), Social acceptance of renewable energy innovation: An introduction to the concept, Energy Policy, 35: 2683-2691. - World Commission on Environment and Development - WCED (1987), Our Common Future (Brundtland Report), Oxford, Oxford University Press. - Unruh, G.C. (2002), Escaping carbon lock-in, Energy Policy, 30(4), 317-325. - Unruh, G.C. (2000), Understanding carbon lock-in, Energy Policy, 28: 817-830 - Smith, A. (2007), Translating Sustainabilities between Green Niches and Socio-Technical Regimes, Technology Analysis & Strategic Management, 19(4): 427-450. - Raven, R. and Verbong, G. (2007), Multi-Regime Interactions in the Dutch Energy Sector: The Case of Combined Heat and Power Technologies in the Netherlands 1970-2000, Technology Analysis & Strategic Management, 19(4): 491-507. - Praetorius, B., Bauknecht, D., Cames, M., Fischer, C., Pehnt, M., Schumacher K., and Voß, J.-P. (2009), Innovation for Sustainable Electricity Systems - Exploring the Dynamics of Energy Transitions, Heidelberg,Springer. - OECD (2012), OECD Environmental Outlook to 2050 - The consequences of inaction, Paris, OECD. - OECD (2011), Studies on Environmental Innovation: Environmental Policy, Technological Innovation and Patents, Paris, OECD. - OECD (2011), Studies on Environmental Innovation: Better Policies to Support Eco-innovation, Paris, OECD. - OECD (2011), Greening household behaviour - The role of public policy, Paris, OECD. - OECD (2010), Eco-Innovation in Industry - Enabling Green Growth, Paris, OECD. - Lund, P.D. (2009), Effects of energy policies on industry expansion in renewable energy, Renewable Energy, 34: 53-64. - Jacobsson, S. and Bergek, A. (2004), Transforming the energy sector: the evolution of technological systems in renewable energy technology, Industry and Corporate Change, 13(5): 815-849. - Hekkert, M. P. and Negro, S. O. (2009), Functions of innovation systems as a framework to understand sustainable technological change: Empirical evidence for earlier claims, Technological Forecasting and Social Change, 76(4): 584-594. - Geels, F.W. and Kemp, R. (2007), Dynamics in socio-technical systems: Typology of change processes and contrasting case studies, Technology in Society, 29(4), 441-455. - Dean, T.J. e McMullen, J.S. (2007), Toward a theory of sustainable entrepreneurship: Reducing environmental degradation through entrepreneurial action, Journal of Business Venturing, 22: 50-76 - Bergek, A., Jacobsson, S., Carlsson, B., Lindmark, S., and Rickne, A. (2008), Analyzing the functional dynamics of technological innovation systems: A scheme of analysis, Research Policy, 37: 407-429. - Audretsch, D. B., Falck, O., Heblich, S. and Lederer, A. (2011), Handbook of Research on Innovation and Entrepreneurship, Cheltenham, Edward Elgar. :