Bibliografia

Principal

  • 6. Van den Bergh, J.C.J.M., Faber, A., Idenburg, A.M. and Oosterhuis, F.H. (2007), Evolutionary Economics and Environmental Policy: Survival of the Greenest, Edward Elgar. 5. Stern, N. (2009), O Desafio Global – Como enfrentar as alterações climáticas criando uma nova era de progresso e prosperidade, Lisboa, Esfera do Caos. 4. Grin, J., Romans, J. and Schot, J. (eds.) (2011), Transitions to Sustainable Development: New Directions in the Study of Long Term Transformative Change, London, Routledge. 3. Geels, F., Hekkert, M. and Jacobsson, S. (2011), The Dynamics of Sustainable Innovation Journeys, Routledge. 2. Foxon, T.J., Kohler, J. and Oughton, C. (2008), Innovation for a Low Carbon Economy: Economic, Institutional and Management Approaches, Edward Elgar. 1. Fagerberg, J., Martin, B.R. and Andersen, E.S. (eds.) (2013), Innovation Studies – Evolution and Future Challenges, Oxford, Oxford University Press. :

Secundária

  • 49. Wustenhagen, R., Wolsink, M., and Burer, M. J. (2007), “Social acceptance of renewable energy innovation: An introduction to the concept”, Energy Policy, 35, pp. 2683–2691. 48. World Commission on Environment and Development - WCED (1987), Our Common Future (Brundtland Report), Oxford, Oxford University Press. 47. Weber, M. and Hemmelskamp, J. (Eds.), Towards Environmental Innovation Systems, Heidelberg, Springer. 46. Verbong, G.P.G. and Geels, F.W. (2010), “Exploring sustainability transitions in the electricity sector with socio-technical pathways”, Technological Forecasting & Social Change, Vol. 77, No. 9, pp. 1214-1221. 45. Van den Bergh, J. and Kemp, R. (2006), “Economics and transitions : Lessons from economic sub-disciplines”, Working Paper Series, 2006-038, UNU-MERIT, Maastricht, 34 p. 44. Unruh, G.C. (2000), “Understanding carbon lock-in”, Energy Policy, Vol. 28, No. 12, pp. 817-830. 43. Spaargaren, G. (2011), Theories of practices: Agency, technology, and culture. Exploring the relevance of practice theories for the governance of sustainable consumption practices in the new world-order, Global Environmental Change, No. 21, pp. 813-822. 42. Stenzel, T. and Franzel, A. (2008), “Regulating technological change – The strategic reactions of utility companies towards subsidy policies in the German, Spanish and UK electricity markets”, Energy Policy, Vol. 36, No. 7, pp. 2645-2657. 41. Sousa, C. and Salavisa, I. (2014), “Dominant business models of young firms in the renewable energy sector”, in Galbraith, B. (2014), Proceedings of the 9th European Conference on Innovation and Entrepreneurship ECIE 2014, UK, ACPI Limited, pp. 428-437. 40. Soete, L. (2013), “Is innovation always good?”, in Fagerberg, J., Martin, B.R. and Andersen, E.S. (eds.), pp. 134 – 144. 39. Söderholm, P., Hildingsson, R., Johansson, B., Khan, J. and Wilhelmsson, F. (2011), “Governing the transition to low-carbon futures: A critical survey of energy scenarios for 2050”, Futures, Vol. 43, No.10, pp. 1105–1116. 38. Smith, A., Voß, J.P. and Grin, J. (2010), “Innovation studies and sustainability transitions: The allure of the multi-level perspective and its challenges”, Research Policy, Vol. 39, No. 4, pp. 435–448. 37. Schot, J. and Geels, F.W. (2008), “Strategic niche management and sustainable innovation journeys: Theory, findings, research agenda, and policy”, Technology Analysis & Strategic Management, Vol.20, No.5, pp. 537–554. 36. Schot, J. and Geels, F.W. (2007), “Niches in evolutionary theories of technical change – A critical survey of the literature”, Journal of Evolutionary Economics, Vol. 17, No. 5, pp. 605-622. 35. Santos, F.D. (2012), Alterações Globais – Os desafios e os riscos presentes e futuros, Lisboa, Fundação Francisco Manuel dos Santos. 34. Salavisa, I. and Fontes, M. (eds.) (2012), Social networks, Innovation and the Knowledge Economy, Abingdon, UK, and New York, Routledge. 33. 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), pp. 491–507. 32. 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. 31. Perez, C. (2013), “Innovation systems and policy for development in a changing world”, in Fagerberg, J., Martin, B.R. and Andersen, E.S. (eds.), pp. 90-110. 30. Perez, C. (2010), “Technological revolutions and techno-economic paradigms”, Cambridge Journal of Economics, Vol. 34, No. 1, pp. 185-202. 29. OECD (2012), OECD Environmental Outlook to 2050 – The consequences of inaction, Paris, OECD. 28. OECD (2011), Studies on Environmental Innovation: Better Policies to Support Eco-innovation, Paris, OECD. 27. OECD (2011), Greening household behaviour – The role of public policy, Paris, OECD. 26. OECD (2011), Green Growth Studies: Fostering Innovation for Green Growth, Paris, OECD. 25. OECD (2010), Eco-Innovation in Industry – Enabling Green Growth, Paris, OECD. 24. Nelson, R.R. and S. Winter (1977), “In Search of Useful Theory of Innovation”, Research Policy, VI, 1, pp. 36-76. 23. Nelson, R.R. (2013), “Reflections on the study of innovation and on those who study it”, in Fagerberg, J., Martin, B.R. and Andersen, E.S. (eds.), pp. 187-193. 22. Jackson, T. (2009), Prosperity Without Growth – Economics for a Finite Planet, London, Earthscan Publications. 21. Meadows, D.H., Meadows, D.L., Randers, J. and Behrens, W.W. (2005), The Limits to Growth: the 30 year update, London, Earthscan Publications. 20. Martin, B.R. (2013), “Innovation studies: An emerging agenda”, in Fagerberg, J., Martin, B.R. and Andersen, E.S. (eds.), pp. 168-186. 19. Markard, J., Raven, R. and Truffer, B. (2012), “Sustainability transitions: An emerging field of research and its prospects”, Research Policy, Vol. 41, No. 6, pp. 955-967. 18. Lundvall, B.A. (2013), “An agenda for future research”, in Fagerberg, J., Martin, B.R. and Andersen, E.S. (eds.), pp. 202-209. 17. Jolly, A. (ed.) (2010), Clean Tech Clean Profits: Using Effective Innovation and Sustainable Business Practices to Win in the New Low-carbon Economy, Kogan Page. 16. 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), pp. 815-849. 15. Hodson, M., Marvin, S. (2010), “Can cities shape socio-technical transitions and how would we know if they were?”, Research Policy, Vol. 39, pp. 477–485. 14. 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 & Social Change, Vol. 76, No. 4, pp. 584-594. 13. Goldman, T. and Gorham, R. (2006), “Sustainable urban transport: Four innovative directions”, Technology in Society, 28, pp. 261-273. 12. Girardet, H. (2007), Criar Cidades Sustentáveis, Lisboa, Edições Sempre-em-pé. 11. Geels, F.W. and Kemp, R. (2007), “Dynamics in socio-technical systems: Typology of change processes and contrasting case studies”, Technology in Society, Vol. 29, No. 4, pp. 441-455. 10. Geels, F.W. (2010), “Ontologies, socio-technical transitions (to sustainability), and the multi-level perspective”, Research Policy, Vol. 39, No. 4, pp. 495-510. 9. Geels, F.W. (2004), “From sectoral systems of innovation to socio-technical systems”, Research Policy, Vol. 33, Nos. 6-7, pp. 897-920. 8. Freeman, C. (1992), “A green techno-economic paradigm for the world economy”, in Freeman, C., The Economics of Hope – Essays on Technical Change, Economic Growth and the Environment, London and New York, Pinter Publishers, pp. 190-211. 7. EC (2011), EUROPE 2020 – Europe 2020 Flagship Initiative - A resource-efficient Europe, Communication from the Commission, COM (2011) 21, Brussels. 6. EC (2007), Uma Política Energética para a Europa, Communication from the Commission, COM (2007) 1 final, Brussels, 10 de Janeiro. 5. Dosi, G. (1982), “Technological paradigms and technological trajectories”, Research Policy, Vol. 11, No. 3, pp. 147-162. 4. Dean, T.J. and McMullen, J.S. (2007), “Toward a theory of sustainable entrepreneurship: Reducing environmental degradation through entrepreneurial action”, Journal of Business Venturing, 22: 50–76 3. David, P.A. (1994), “Why are Institutions the ‘Carriers of History’?: Path Dependence and the Evolution of Conventions, Organizations and Institutions”, Structural Change and Economic Dynamics, Vol. 5, No. 2, pp. 205-220. 2. Carlsson, B. and Stankiewicz, R. (1991), “On the nature, function and composition of technological systems”, Journal of Evolutionary Economics, Vol. 1, No. 2, pp. 93-118. 1. Arthur, W.B. (1994), Increasing Returns and Path Dependence in the Economy, Ann Arbor, The University of Michigan Press. :