Acosta, D., Coronado, D., León, M. D., & Martínez, M. (2008). Production of university technological knowledge in European regions: Evidence from patent data. Regional Studies, 43(9), 1167–1181.
Acosta, D., Coronado, D., & Martínez, M. (2012). Spatial differences in the quality of university patenting: Do regions matter? Research Policy, 41(9), 692–703.
Ankrah, S. N., Burgess, T. F., Grimshaw, P., & Shaw, N. E. (2013). Asking both university and industry actors about their engagement in knowledge transfer: What single-group studies of motives omit. Technovation, 33, 50–65.
[+]
Acosta, D., Coronado, D., León, M. D., & Martínez, M. (2008). Production of university technological knowledge in European regions: Evidence from patent data. Regional Studies, 43(9), 1167–1181.
Acosta, D., Coronado, D., & Martínez, M. (2012). Spatial differences in the quality of university patenting: Do regions matter? Research Policy, 41(9), 692–703.
Ankrah, S. N., Burgess, T. F., Grimshaw, P., & Shaw, N. E. (2013). Asking both university and industry actors about their engagement in knowledge transfer: What single-group studies of motives omit. Technovation, 33, 50–65.
Arellano, M., & Bond, S. (1991). Some tests of specification for panel data: Monte Carlo evidence and an application to employment equations. Review of Economic Studies, 58, 277–297.
Arvanitis, S., Kubli, U., & Woerter, M. (2008). University-industry knowledge and technology transfer in Switzerland: What university scientists think about co-operation with private enterprises. Research Policy, 37, 1865–1883.
Azagra Caro, J. M., Fernández de Lucio, I., & Gutiérrez Gracia, A. (2003). University patents: Output and input indicators… of what? Research Evaluation, 12(1), 5–16.
Azagra-Caro, J. M., Archontakis, F., & Yegros–Yegros, A. (2007a). In which regions do universities patent and publish more? Scientometrics, 70(2), 251–266.
Azagra-Caro, J. M., Carayol, N., & Llerena, P. (2006a). Patent production at a European Research University: Exploratory evidence at the Laboratory Level. Journal of Technology Transfer, 31(3), 257–268.
Azagra-Caro, J. M., Plaza-Gómez, L., & Romero-de-Pablos, A. (2007b). The origin of public research organisation patents: An economic approach. Research Evaluation, 16(4), 271–282.
Azagra-Caro, J. M., Yegros–Yegros, A., & Archontakis, F. (2006b). What do university patent routes indicate at regional level? Scientometrics, 66(1), 219–230.
Bach, L., & Llerena, P. (2007). Indicators of higher-education institutes and public-research organizations technology transfer activities: Insights from France. Science and Public Policy, 34(10), 709–721.
Baldini, N. (2006a). The Act on inventions at public research institutions: Danish universities’ patenting activity. Scientometrics, 69(2), 387–407.
Baldini, N. (2006b). University patenting and licensing activity: A review of the literature. Research Evaluation, 15(3), 197–207.
Baldini, N. (2009). Implementing Bayh-Dole-like laws: Faculty problems and their impact on University patenting activity. Research Policy, 38(8), 1217–1224.
Baldini, N. (2010). Do royalties really foster university patenting activity? An answer from Italy. Technovation, 30, 109–116.
Baldini, N., Grimaldi, R., & Sobrero, M. (2006). Institutional changes and the commercialization of academic knowledge: A study of Italian universities’ patenting activities between 1965 and 2002. Research Policy, 35, 518–532.
Breschi, S., Lissoni, F., & Montobbio, F. (2008). University patenting and scientific productivity: A quantitative study of Italian academic inventors. European Management Review, 5, 91–109.
Buenstorf, G. (2009). Is commercialization good or bad for science? Individual-level evidence from the Max Planck Society. Research Policy, 38, 281–292.
Carayol, N. (2007). Academic incentives, research organization and patenting at a large French university. Economics of Innovation and New Technology, 16(2), 119–138.
Cesaroni, F., & Piccaluga, A. (2005). Universities and intellectual property rights in Southern European Countries. Technology Analysis & Strategic Management, 17(4), 497–518.
Coupé, T. (2003). Science is golden: Academic R&D and University patents. Journal of Technology Transfer, 28, 31–46.
Crespi, G. A., Geuna, A., Nomaler, Ö., & Verspagen, B. (2010). University IPRs and knowledge transfer: Is university ownership more efficient? Economics of Innovation and New Technology, 19(7), 627–648.
Czarnitzki, D., Hussinger, K., & Schneider, C. (2012). The nexus between science and industry: Evidence from faculty inventions. Journal of Technology Transfer, 37(5), 755–776.
D’Este, P., & Perkmann, M. (2011). Why do academics engage with industry? The entrepreneurial university and individual motivations. Journal of Technology Transfer, 36(3), 316–339.
Dietz, J. S., & Bozeman, B. (2005). Academic careers, patents, and productivity: Industry experience as scientific and technical human capital. Research Policy, 34(3), 349–367.
Dosi, G., Llerena, P., & Labini, M. S. (2006). Science–Technology–Industry links and the ‘European Paradox’: Some notes on the dynamics of scientific and technological research in Europe. In E. H. Lorenz & B.-Å. Lundvall (Eds.), How Europe’s economies learn: Coordinating competing models. Oxford: Oxford University Press.
EC. (2007a). Commission communication ‘Improving knowledge transfer between research institutions and industry across Europe: Embracing open innovation’, COM(2007) 182.
EC. (2007b). Commission green paper ‘The European Research Area: New Perspectives’, COM(2007) 161.
Gaughan, M., & Corley, E. A. (2010). Science faculty at US research universities: The impacts of university research center-affiliation and gender on industrial activities. Technovation, 30, 215–222.
Geuna, A., Llerena, P., Matt, M., & Savona, M. (2004). Collaboration between a research university and firms and other institutions. In F. Cesaroni, A. Gambardella, & W. García-Fontes (Eds.), R&D, innovation, and competitiveness in the European chemical industry, Chap. 6. Boston: Kluwer.
Geuna, A., & Rossi, F. (2011). Changes to university IPR regulations in Europe and the impact on academic patenting. Research Policy, 40, 1068–1076.
Goel, R., & Rich, D. P. (2005). Organization of markets for science and technology. Journal of Institutional and Theoretical Economics, 161, 1–17.
Grimpe, C., & Fier, H. (2010). Informal university technology transfer: A comparison between the United States and Germany. Journal of Technology Transfer, 35(6), 637–650.
Hall, B. H., Griliches, Z., & Hausman, J. A. (1986). Patents and R&D: Is there a lag? International Economic Review, 27(2), 265–283.
Krabel, S., & Mueller, P. (2009). What drives scientists to start their own company? An empirical investigation of Max Planck Society scientists. Research Policy, 38, 947–956.
Lissoni, F., Llerena, P., McKelvey, M., & Sanditov, B. (2008). Academic patenting in Europe: New evidence from the KEINS database. Research Evaluation, 17(2), 87–102.
Marinova, D. (2001). Eastern European patenting activities in the USA. Technovation, 21, 571–584.
Meyer, M. (2006). Are patenting scientists the better scholars? An exploratory comparison of inventor-authors with their non-inventing peers in nano-science and technology. Research Policy, 35(2006), 1646–1662.
Meyer, M., Du Pleiss, M., Tukeva, T., & Utecht, J. T. (2005). Inventive output of academic research: A comparison of two science systems. Scientometrics, 63(1), 145–161.
Moutinho, P. S. F., Fontes, M., & Godinho, M. M. (2007). Do individual factors matter? A survey of scientists’ patenting in Portuguese public research organizations. Scientometrics, 70(2), 355–377.
Nelson, R. R., & Rosenberg, N. (1993). Technical innovation and national systems. In R. R. Nelson (Ed.), National innovation systems, Chap. 1. Oxford: Oxford University Press.
Nilsson, A. S., Rickne, A., & Bengtsson, L. (2010). Transfer of academic research: Uncovering the grey zone. Journal of Technology Transfer, 35(6), 617–636.
Núñez-Sánchez, R., Barge-Gil, A., & Modrego-Rico, A. (2012). Performance of knowledge interactions between public research centres and industrial firms in Spain: A project-level analysis. Journal of Technology Transfer, 37, 330–354.
OECD. (2001). Using patent counts for cross-country comparisons of technology output. STI Review 27.
Okamuro, H., & Nishimura, J. (2013). Impact of university intellectual property policy on the performance of university-industry research collaboration. Journal of Technology Transfer, 38(3), 273–301.
Patel, P., & Pavitt, K. (1995). Patterns of technological activity: Their measurement and interpretation. In P. Stoneman (Ed.), Handbook of the economics of innovation and technological change, Chap. 2. UK: Blackwell.
Pavitt, K. (1998). Do patents reflect the useful research output of universities? Research evaluation, 7(2), 105–111.
Ponomariov, B. L. (2007). Effects of university characteristics on scientists’ interactions with the private sector: An exploratory assessment. Journal of Technology Transfer, 33(5), 485–503.
Potì, B., & Reale, E. (2005). The patenting regime in the Italian public research system. What motivates public inventors to patent. Ceris-Cnr, Working Paper No. 10/2005.
PREST. (2002). A comparative analysis of Public, Semi-Public and Recently Privatised Research Centres, mimeo: ftp://ftp.cordis.europa.eu/pub/indicators/docs/ind_report_prest1.pdf . Last access 20/02/2009.
Proton. (2007). The ProTon Europe 2005 Annual Survey report, mimeo: http://www.fptt-pftt.gc.ca/eng/resources/articles/2007/06/ProTonEurope2005.html . Last access 20/02/2009.
Van Looy, B., du Plessis, M., & Magerman, T. (2006). Data production methods for harmonized patent indicators: Assignee sector allocation. Luxembourg: Eurostat Working Paper and Studies.
Wong, P. K., & Singh, A. (2009). University patenting activities and their link to the quantity and quality of scientific publications. Scientometrics, 83, 271–294.
Yang, P. Y., & Chang, Y.-C. (2010). Academic research commercialization and knowledge production and diffusion: The moderating effects of entrepreneurial commitment. Scientometrics, 83, 403–421.
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Azagra Caro, Joaquín María
