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References

Published online by Cambridge University Press:  07 August 2023

Yutao Sun
Affiliation:
Dalian University of Technology, China
Cong Cao
Affiliation:
University of Nottingham Ningbo, China
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The Political Economy of Science, Technology, and Innovation in China
Policymaking, Funding, Talent, and Organization
, pp. 214 - 235
Publisher: Cambridge University Press
Print publication year: 2023

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References

Abbasi, A., Hossain, L., & Leydesdorff, L. (2012). Betweenness centrality as a driver of preferential attachment in the evolution of research collaboration networks. Journal of Informetrics, 6(3), 403412.CrossRefGoogle Scholar
Abelson, P. (1979). Education, science, and technology in China. Science, 203(4380), 505509.Google Scholar
Abernathy, W.J. & Chakravarthy, B.S. (1979). Government intervention and innovation in industry: A policy framework. Sloan Management Review, 20(3), 1318.Google Scholar
Acemoglu, D., Johnson, S. & Robinson, J.A. (2005). Institutions as a fundamental cause of long-run growth. In Aghion, P. & Durlauf, S., eds. Handbook of Economic Growth. Amsterdam: North-Holland Publishing Company, vol. 1A, pp. 385472.Google Scholar
Ackers, L. (2005). Moving people and knowledge: Scientific mobility in the European Union. International Migration, 43(5), 99131.CrossRefGoogle Scholar
Adner, R. (2006). Match your innovation strategy to your innovation ecosystem. Harvard Business Review, 84(4), 98107.Google ScholarPubMed
Aghion, P., David, P.A. & Foray, D. (2008). Science, technology and innovation for economic growth: Linking policy research and practice in “STIC systems.” Research Policy, 38(4), 681693.Google Scholar
Ahuja, G., Soda, G. & Zaheer, A. (2012). The genesis and dynamics of organizational networks. Organization Science, 23(2), 434448.Google Scholar
Aldrich, H.E. & Fiol, C.M. (1994). Fools rush in? The institutional context of industry creation. Academy of Management Review, 19(4), 645670.CrossRefGoogle Scholar
Allen, R. & Tommasi, D. (2001). Managing Public Expenditure: A Reference Book for Transition Countries. Paris: OECD Press.Google Scholar
American Academy of Arts and Sciences. (2014). Restoring the Foundation: The Vital Role of Research in Preserving the American Dream. Available at www.amacad.org/sites/default/files/publication/downloads/AmericanAcad_RestoringtheFoundation.pdf (accessed December 3, 2021).Google Scholar
Amin, A. & Cohendet, P. (2004). Architectures of Knowledge: Firms, Capabilities, and Communities. Oxford: Oxford University Press.Google Scholar
Amos, P. & Bullock, R.G. (2011). Governance and structure of the railway industry: Three pillars. China Transport Topics, 2(12), 5360.Google Scholar
Amsden, A.H. (1998). Bringing production back in: Understanding government’s economic role in late industrialization. World Development, 25(4), 469480.Google Scholar
Anadón, L.D. (2012). Missions-oriented R&D institutions in energy between 2000 and 2010: A comparative analysis of China, the United Kingdom, and the United States. Research Policy, 41(10), 17421756.CrossRefGoogle Scholar
Appelbaum, R.P., Cao, C., Han, X., Parker, R. & Simon, D. (2018). Innovation in China: Challenging the Global Science and Technology System. Cambridge, UK: Polity.Google Scholar
Appelbaum, R.P., Cao, C., Parker, R. & Motoyama, Y. (2012). Nanotechnology as industrial policy: China and the United States. In Harthorn, B.H. & Mohr, J.W., eds. The Social Life of Nanotechnology. New York: Routledge, pp. 111133.Google Scholar
Appelbaum, R.P., Gebbie, M.A., Han, X., Stocking, G. & Kay, L. (2016). Will China’s quest for indigenous innovation succeed? Some lessons from nanotechnology. Technology in Society, 46, 149163.CrossRefGoogle Scholar
Appelbaum, R.P., Parker, R. & Cao, C. (2011). Developmental state and innovation: Nanotechnology in China. Global Networks, 11(3), 298314.Google Scholar
Argyres, N.S. & Silverman, B.S. (2004). R&D, organization structure, and the development of corporate technological knowledge. Strategic Management Journal, 25(8–9), 929958.CrossRefGoogle Scholar
Baldwin, R. & Krugman, P. (1988). Industrial policy and international competition in wide-bodied jet aircraft. In Baldwin, R., ed. Trade Policy Issues and Empirical Analysis. Chicago, IL: University of Chicago Press, pp. 4578.Google Scholar
Barabási, A. & Albert, R. (1999). Emergence of scaling in random networks. Science, 286(5439), 509512.Google Scholar
Baruffaldi, S.H. & Landoni, P. (2012). Return mobility and scientific productivity of researchers working abroad: The role of home country linkages. Research Policy, 41(9), 16551665.CrossRefGoogle Scholar
Baudassé, T. & Bazillier, R. (2014). Gender inequality and emigration: Push factor or selection process? International Economics, 139, 1947.Google Scholar
Bazhal, I. (2017). The Political Economy of Innovation Development: Breaking the Vicious Cycle of Economic Theory. Berlin: Palgrave Macmillan.Google Scholar
Becker, G.S. (1964). Human Capital. Chicago, IL: The University of Chicago Press.Google Scholar
Berardo, R. & Scholz, J.T. (2010). Self-organizing policy networks: Risk, partner selection, and cooperation in estuaries. American Journal of Political Science, 54(3), 632649.Google Scholar
Besussi, E. (2006). Policy Networks: Conceptual Developments and Their European Applications (CASA Working Papers). London: Centre for Advanced Spatial Analysis, University College London. Available at http://discovery.ucl.ac.uk/3280/1/3280.pdf (accessed December 3, 2021).Google Scholar
Beunen, R., Van Assche, K. & Duineveld, M. (2015). Evolutionary Governance Theory: An Introduction. Heidelberg: Springer.Google Scholar
Black, J.S. & Morrison, A.J. (2021). The strategic challenges of decoupling. Harvard Business Review, July–August 2–7.Google Scholar
Blom-Hansen, J. (1997). A “new institutional” perspective on policy networks. Public Administration, 75(4), 669693.Google Scholar
Borgatti, S.P., Brass, J.D. & Halgin, S.D. (2014). Social network research: Confusions, criticisms, and controversies. Research in the Sociology of Organizations, 40, 129.Google Scholar
Borjas, G.J. (1994). The economics of immigration. Journal of Economic Literature, 32(4), 16671717.Google Scholar
Borrás, S. & Edquist, C. (2013). The choice of innovation policy instruments. Technological Forecasting and Social Change, 80(8), 15131522.CrossRefGoogle Scholar
Boston, J. & Lempp, F. (2011). Climate change: Explaining and solving the mismatch between scientific urgency and political inertia. Accounting, Auditing and Accountability Journal, 24(8), 10001021.CrossRefGoogle Scholar
Boston, J. & Prebble, R. (2013). The role and importance of long-term fiscal planning. Policy Quarterly, 9(4), 38.Google Scholar
Braun, D. (2008). Lessons on the political coordination of knowledge and innovation policies. Science and Public Policy, 35(4), 289298.Google Scholar
Breznitz, D. (2007). Industrial R&D as a national policy: Horizontal technology policies and industry-state co-evolution in the growth of the Israeli software industry. Research Policy, 36(9), 14651482.Google Scholar
Breznitz, D. & Murphree, M. (2011). Run of the Red Queen: Government, Innovation, Globalization, and Economic Growth in China. New Haven, CT: Yale University Press.Google Scholar
Buesa, M., Heijs, J., Martínez Pellitero, M. & Baumert, T. (2006). Regional systems of innovation and the knowledge production function: The Spanish case. Technovation, 26(4), 463472.Google Scholar
Bullock, R.H., Salzberg, A. & Jin, Y. (2012). High-Speed Rail-The First Three Years: Taking the Pulse of China’s Emerging Program. China Transport Topics No. 2. World Bank.Google Scholar
Burt, R.S. (2005). Brokerage and Closure: An Introduction to Social Capital. New York: Oxford University Press.Google Scholar
Busse, T.V. & Mansfield, R.S. (1984). Selected personality traits and achievement in male scientists. Journal of Psychology: Interdisciplinary & Applied, 116(1), 117131.Google Scholar
Cadien, N. (1980). Budgeting in poor countries: Ten common assumptions re-examined. Public Administration Review, 40(1), 4046.CrossRefGoogle Scholar
Caixin. (2012). A professor at Beijing University of Chemical Technology has been fired for embezzling other people’s papers (in Chinese). Available at https://china.caixin.com/2012-07-29/100416446.html (assessed February 23, 2022).Google Scholar
Cao, C. (2008). China’s brain drain at the high end: Why government policies have failed to attract first-rate academics to return. Asian Population Studies, 4(3), 331345.CrossRefGoogle Scholar
Cao, C. (2014). The universal values of science and China’s Nobel Prize pursuit. Minerva, 52(2), 141160.CrossRefGoogle Scholar
Cao, C., Baas, J., Wagner, C.S. & Jonkers, K. (2020). Returning scientists and the emergence of Chinese science system. Science and Public Policy, 47(2), 172183.Google Scholar
Cao, C., Li, N., Li, X. & Liu, L. (2013). Reforming China’s S&T system. Science, 341(6145), 460462.CrossRefGoogle ScholarPubMed
Cao, C. & Simon, D.F. (2021). China’s talent challenges revisited. In Baark, E., Hofman, B., & Qian, J., eds. Innovation and China’s Global Emergence. Singapore: National University of Singapore Press, pp. 90112.Google Scholar
Cao, C., Simon, D.F. & Suttmeier, R.P. (2009). China’s innovation challenge. Innovation: Management, Policy & Practice, 11(2), 253259.CrossRefGoogle Scholar
Cao, C. & Suttmeier, R.P. (2001). China’s new scientific elite: Distinguished young scientists, the research environment, and hopes for Chinese science. The China Quarterly, 168, 960984.CrossRefGoogle Scholar
Cao, C. & Suttmeier, R.P. (2017). Challenges of S&T system reform in China. Science, 355(6329), 10191021.CrossRefGoogle ScholarPubMed
Cao, C., Suttmeier, R.P. & Simon, D.F. (2006). China’s 15-year science and technology plan. Physics Today, 59(12), 3843.Google Scholar
Cervantes, M. & Guellec, D. (2002). The brain drain: Old myths, new realities. OECD Observer, 4(230), 4042.Google Scholar
Chang, P.L. & Shih, H.Y. (2004). The innovation systems of Taiwan and China: A comparative analysis. Technovation, 24(7), 529539.Google Scholar
Chen, Z. (2009). A brief history of China’s Y-10: Imitation versus innovation. Technology in Society, 31(4), 414418.Google Scholar
Chen, L., & Naughton, B. (2016). An institutionalized policy-making mechanism: China’s return to techno-industrial policy, Research Policy, 45(10), 21382152.Google Scholar
Cheung, T.M. (2013). The Chinese Defense Economy Takes Off: Sector-By-Sector Assessments and the Role of Military End-Users. The University of California Institute on Global Conflict and Cooperation. Available at http://igcc.ucsd.edu/assets/001/504355.pdf (accessed December 3, 2021).Google Scholar
Chiang, J.T. (1991). From ‘mission-oriented’ to ‘diffusion-oriented’ paradigm: The new trend of US industrial technology policy. Technovation, 11(6), 356339.Google Scholar
China’s National Center for Science and Technology Evaluation (CNCSTE). (2021). The Annual Performance Evaluation Report of NSFC in 2020 (in Chinese). Available at www.nsfc.gov.cn/Portals/0/fj/fj20210525_01.pdf (accessed May 3, 2022).Google Scholar
Chinese Academy of Science, ed. (2012). The Successful Practice of the National Innovation System Construction with Chinese Characteristics: An Assessment Report of Knowledge Innovation Program (in Chinese). Beijing: Science Press.Google Scholar
Chinese Central Government’s DAR. (2012). Available at www.gov.cn/gzdt/201207/11/content_2181165.htm (assessed on February 23, 2013).Google Scholar
Clark, N. (1985). The Political Economy of Science and Technology. Oxford: Blackwell.Google Scholar
Coase, R. & Wang, N. (2012). How China Became Capitalist. New York: Palgrave Macmillan.Google Scholar
Coe, N.M. & Bunnell, T.G. (2003). Spatializing knowledge communities: Towards a conceptualization of transnational innovation networks. Global Networks, 3(4), 437456.Google Scholar
Commander, S., Kangasniemi, M. & Winters, L.A. (2004). The brain drain: Curse or boon? A survey of the literature. In Baldwin, R.E. , R.E. Winters, , eds. Challenges to Globalization: Analyzing the Economics. Chicago, IL: University of Chicago Press, pp. 235278.Google Scholar
Communist Party of China’s Central Committee and the State Council. (2016). Outline of the Innovation-Driven Development Strategy (in Chinese). Available at www.gov.cn/zhengce/2016-05/19/content_5074812.htm (accessed August 30, 2022).Google Scholar
Compston, H. (2009). Policy Networks and Policy Change: Putting Policy Network Theory to the Test. Basingstoke: Palgrave Macmillan.Google Scholar
Congleton, R.D. (1992). Political institutions and pollution control. Review of Economics and Statistic, 74(3), 412421.Google Scholar
Cross, M. (1989). Japan’s fifth generation computer project successes and failures. Futures, 21(4), 401403.Google Scholar
Dai, S. & Taube, M., eds. (2019). China’s Quest for Innovation: Institutions and Ecosystems. London and New York: Routledge.Google Scholar
Datta-Chaudhuri, M. (1990). Market failure and government failure. Journal of Economic Perspectives, 4(3), 2539.Google Scholar
David, P.A., Hall, B.H. & Toole, A.A. (2000). Is public R&D a complement or substitute for private R&D? A review of the econometric evidence. Research policy, 29(4–5), 497529.Google Scholar
De Schutter, O. (2019). The political economy approach to food systems reform. In Harris, J., Anderson, M., Clément, C., & Nisbett, N., eds. The Political Economy of Food. IDS Bulletin 50.2. Brighton: Institute of Development Studies, pp. 1326.Google Scholar
Dedrick, J., Tang, J. & Kraemer, K.L. (2012) China’s indigenous innovation policy: Impact on multi-national R&D, Computer, 45, 7078.Google Scholar
Dobrev, S.D. & Barnett, W.P. (2005). Organizational roles and transition to entrepreneurship. Academy of Management Journal, 48(3), 433449.CrossRefGoogle Scholar
Docquier, F., Marfouk, A., Salomone, S. & Sekkat, K. (2012). Are skilled women more migratory than skilled men? World Development, 40(2), 251265.Google Scholar
Dolfsma, W. & Seo, D.B. (2013). Government policy and technological innovation-a suggested typology. Technovation, 33(6–7), 173179.Google Scholar
Dolla, V.S. (2015). Science and Technology in Contemporary China: Interrogating Policies and Progress. Cambridge and New Delhi: Cambridge University Press.Google Scholar
Dowding, K. (1995). Model or metaphor? A critical review of the policy network approach. Political Studies, 43(1), 136158.CrossRefGoogle Scholar
Dustmann, C. (1996). Return migration: The European experience. Economic Policy, 11(22), 213250.Google Scholar
Dustmann, C., Fadlon, I. & Weiss, Y. (2011). Return migration, human capital accumulation and the brain drain. Journal of Development Economics, 95(1), 5867.Google Scholar
Eberhardt, M., Helmers, C., Yu, Z.H. (2017). What can explain the Chinese patent explosion? Oxford Economic Papers, 69(1), 239262.Google Scholar
Eisenhardt, K.M. (1989). Building theories from case study research. Academy of Management Review, 14(4), 532550.Google Scholar
Ergas, H. (1987). Does Technology Policy Matter? Technology and Global industry: Companies and Nations in the World Economy. Washington, DC: The National Academies Press.Google Scholar
European Commission. (2000). Innovation Policy in a Knowledge-Based Economy. Luxembourg: European Commission. Available at http://ftp.cordis.lu/pub/innovation-policy/studies/studies_knowledge_based_economy.pdf (accessed December 3, 2021).Google Scholar
Fang, X. (2010). Re-examining the reform of China’s science and technology system: A historical perspective. Journal of Science and Technology Policy in China, 1(1), 717.Google Scholar
Fang, J.Q. (2015). Survival analysis. In Gail, M. & Samet, J.M., eds. Statistics for Biology & Health. New York: Springer, pp. 211220.Google Scholar
Flanagan, K., Uyarra, E. & Laranja, M. (2011). Reconceptualising the “policy mix” for innovation. Research Policy, 40(5), 702713.Google Scholar
Foray, D., Mowery, D.C. & Nelson, R.R. (2012). Public R&D and social challenges: What lessons from mission R&D programs? Research Policy, 41(10), 16971702.Google Scholar
Foreman-Peck, J. & Federico, G. (1999). European Industrial Policy: The Twentieth-Century Experience. New York: Oxford University Press.Google Scholar
Freeman, C. (1987). Technology Policy and Economic Performance: Lessons from Japan. London: Pinter.Google Scholar
Freeman, L.C. (1979). Centrality in social networks conceptual clarification, Social Networks, 1(3), 215239.CrossRefGoogle Scholar
Freeman, C. & Perez, C.. (1988). Structural crisis of adjustment, business cycles and investment behavior. In Dosi, G., C. Freeman, , Nelson, R., Silverberg, G., & Soete, L., eds. Technical Change and Economic Theory. London: Pinter, pp. 3866.Google Scholar
Freeman, L.C., White, D.R. & Romney, A.K., eds. (1989). Research Methods in Social Network Analysis. Fairfax, VA: George Mason University Press.Google Scholar
Freeman, C. (1995). The “National System of Innovation” in historical perspective. Cambridge Journal of Economics, 19(1), 524.Google Scholar
Fu, X., Pietrobelli, C. & Soete, L. (2011). The role of foreign technology and indigenous innovation in the emerging economies: technological change and catching-up. World Development, 39(7), 12041212.Google Scholar
Fu, X., McKern, B. and Chen, J. eds. (2021). Oxford Handbook of China Innovation, Oxford: Oxford University Press.CrossRefGoogle Scholar
Fuchs, E.R. (2010). Rethinking the role of the state in technology development: DARPA and the case for embedded network governance. Research Policy, 39(9), 11331147.Google Scholar
Fuller, D.B. (2016). Paper Tigers, Hidden Dragons: Firms and the Political Economy of China’s Technological Development. Oxford: Oxford University Press.CrossRefGoogle Scholar
Gaillard, J. & Gaillard, A.M. (1997). Introduction: The international mobility of brains: exodus or circulation? Science Technology and Society, 2(2), 195228.Google Scholar
Gao, X. (2014). A latecomer’s strategy to promote a technology standard: The case of Datang and TD-SCDMA. Research Policy, 43(3), 597607.Google Scholar
Gaughan, M. (2009). Using the curriculum vitae for policy research: An evaluation of National Institutes of Health center and training support on career trajectories. Research Evaluation, 18(2), 117124.Google Scholar
Gaughan, M. & Robin, S. (2004). National science training policy and early scientific careers in France and the United States. Research Policy, 33(4), 56581.Google Scholar
Giesecke, S. (2000). The contrasting roles of government in the development of biotechnology industry in the US and Germany. Research policy, 29(2), 205223.CrossRefGoogle Scholar
Gosling, F.G. (2005). The Manhattan Project: Making the Atomic Bomb. Stockton, CA: University Press of the Pacific.Google Scholar
Griliches, Z. (1990). Patent statistics as economic indicators: A survey. Journal of Economic Literature, 28(4), 16611707.Google Scholar
Grimes, S. & Sun, Y. (2014). Implications of China’s on-going dependence on foreign technology. Geoforum, 54(7), 5969.Google Scholar
Guan, J. & Yan, Y. (2016). Technological proximity and recombinative innovation in the alternative energy field. Research Policy, 45(7), 14601473.Google Scholar
Gulati, R. & Gargiulo, M. (1999). Where do interorganizational networks come from? American Journal of Sociology, 104(5), 14391493.CrossRefGoogle Scholar
Haapanen, M., Lenihan, H. & Mariani, M. (2014). Government policy failure in public support for research and development. Policy Studies, 35(6), 557575.Google Scholar
Hall, A. & Clack, N. (2010). What do complex adoptive systems look like and what are the implications for innovation policy. Journal of International Development, 22(3), 308324.Google Scholar
Hall, P. & Taylor, R. (1996). Political science and the three new institutionalisms. Political Studies, 44(5), 936957.Google Scholar
Hao, X. (2009). Help wanted: 2000 leading lights to inject a spirit of innovation. Science, 325(5940), 534535.Google Scholar
Hao, X. (2011). High-priced recruiting of talent abroad raises hackles. Science, 331(6019), 834835.Google Scholar
Hays, S.P. & Glick, H.R. (1997). The role of agenda setting in policy innovation: An event history analysis of living-will laws. American Politics Quarterly, 25(4), 497516.Google Scholar
Hekkert, M.P., Suurs, R.A.A., Negro, S.O., Kuhlmann, S. & Smits, R.E.H.M. (2007). Functions of innovation systems: A new approach for analysing technological change. Technological Forecasting and Social Change, 74(4), 413432.Google Scholar
Helpman, E. (1998). General Purpose Technologies and Economic Growth. Cambridge, MA: MIT Press.Google Scholar
Henderson, J. & Appelbaum, R.P. (1992). Situating the state in the East Asian development process. In Appelbaum, R.P. & Henderson, J., eds. States and Development in the Asian Pacific Rim. London: Sage Publications, pp. 126.Google Scholar
Hewlett, R.G & Anderson, O.E. (1962). A History of the United States Atomic Energy Commission: The New World, 1939–1946. University Park, PA: The Pennsylvania State University Press.Google Scholar
Hitch, C.J. & McKean, R.N. (1960). The Economics of Defense in the Nuclear Age. Santa Monica, CA: RAND Corporation.CrossRefGoogle Scholar
Hobday, M. (1994). Export-led technology development in the four dragons: The case of electronics. Development and Change, 25(2), 333361.CrossRefGoogle Scholar
Hsu, D.H., Roberts, E.B. & Eesley, C.E. (2007). Entrepreneurs from technology-based universities: Evidence from MIT. Research Policy, 36(5), 768788.Google Scholar
Hu, A.G. (2001). Ownership, government R&D, private R&D, and productivity in Chinese industry. Journal of Comparative Economics, 29(1), 136157.Google Scholar
Hu, M.C. & Mathews, J.A. (2005). National innovative capacity in East Asia. Research Policy, 34(9), 13221349.Google Scholar
Huang, C., Amorim, C., Spinoglio, M., Gouveia, B. & Medina, A. (2004). Organization, programme and structure: An analysis of the Chinese innovation policy framework. R&D Management, 34(4), 367387.Google Scholar
Huang, C. & Sharif, N. (2016). Global technology leadership: The case of China. Science and Public Policy, 43(1), 6273.CrossRefGoogle Scholar
Ibata-Arens, K. (2003). The comparative political economy of innovation. Review of International Political Economy, 10(1), 147165.Google Scholar
Ja, H. (2012). The special funding policy for the MEPs of new drugs will be changed. Available at news.sciencenet.cn/htmlnews//2009/8/222552.shtm (accessed on December 12, 2012).Google Scholar
Jacobs, A. (2011). Governing for the Long-Term: Democracy and the Politics of Investment. Cambridge: Cambridge University Press.Google Scholar
Jakobson, L. (2007). Innovation with Chinese Characteristics: High-Tech Research in China, Hampshire: Palgrave Macmillan.Google Scholar
James, H. (2008). Avoiding another AI winter. IEEE Intelligent Systems, 23(2), 24.Google Scholar
Jansen, J.J.P., Van Den Bosch, F.A.J. & Volberda, H.W. (2006). Exploratory innovation, exploitative innovation, and performance: Effects of organizational antecedents and environmental moderators. Management science, 52(11), 16611674.Google Scholar
JASON (2019). Fundamental Research Security. McLean, VA: The MITRE Corporation.Google Scholar
Jia, K., et al. (2006). Research on Science & Technology Expenditure and Its Management Model (in Chinese), Beijing: China Financial & Economic Publishing House.Google Scholar
Jia, N (2012). A new chapter on the spectrum of indigenous innovation (in Chinese). Available at www.stats.gov.cn/tjfx/grgd/t20121025_402845413.htm (accessed November 12, 2012).Google Scholar
Johnson, C. (1982). MITI and the Japanese Miracle: The Growth of Industrial Policy, 1925–1975. Stanford, CA: Stanford University Press.Google Scholar
Jones, V.C. (1985). Manhattan: The Army and the Atomic Bomb. Washington, DC: United States Army Center of Military History.Google Scholar
Kayser, V., Blind, K. (2017). Extending the knowledge base of foresight: The contribution of text mining. Technological Forecasting and Social Change. 116(3), 208215.Google Scholar
Kapur, D. (2010). Diaspora, Development, and Democracy: The Domestic Impact of International Migration from India, Princeton, NJ: Princeton University Press.Google Scholar
Kenis, P. & Schneider, V. (1991). Policy networks and policy analysis: Scrutinizing a new analytical toolbox. In Marin, B. & Mayntz, R., eds. Policy Networks: Empirical Evidence and Theoretical Considerations. Frankfurt am Main, Germany: Campus Verlag, pp. 2559.Google Scholar
Kennedy, S. (2005). The Business of Lobbying in China, Cambridge, MA: Harvard University Press.Google Scholar
Kennedy, S., Suttmeier, R.P. & Su, J. (2008). Standards, Stakeholders, and Innovation: China’s Evolving Role in the Global Knowledge Economy. Seattle, WA: National Bureau of Asian Research.Google Scholar
Keynes, J.M. (1936). The General Theory of Employment, Interest and Money. London: Macmillan.Google Scholar
Kim, H. & Song, J. (2013). Social network analysis of patent infringement lawsuits. Technological Forecasting and Social Change, 80(5), 944955.Google Scholar
Klijn, E. (1996). Analyzing and managing policy processes in complex networks: A theoretical examination of the concepts policy networks and its problems. Administration & Society, 28(1), 90119.CrossRefGoogle Scholar
Klijn, E., Koppenjan, J. (2012). Governance network theory: past, present and future. Policy & Politics, 40(4), 587606.Google Scholar
Knell, M. (2018). Friedrich List and the American system of innovation. In The Economic Thought of Friedrich List. New York & London: Routledge, pp. 179197.Google Scholar
Kolata, G. (2009). Playing it safe in cancer research. The New York Times, June 28, pp. A1 & A18.Google Scholar
Krueger, A.O. (1990). Government failures in development. Journal of Economic perspectives, 4(3), 923.Google Scholar
Kuhlmann, S. (2001). Future governance of innovation policy in Europe: Three scenarios. Research Policy, 30(6), 953976.Google Scholar
Kvint, V. (2009). The Global Emerging Market: Strategic Management and Economics. New York and London: Routledge.Google Scholar
Lanahana, L. & Feldman, M.P. (2015). Multilevel innovation policy mix: A closer look at state policies that augment the federal SBIR program. Research Policy, 44(7), 13871402.Google Scholar
Lee, Y., Lee, I.W. & Feiock, R.C. (2012). Interorganizational collaboration networks in economic development policy: An exponential random graph model analysis. Policy Studies Journal, 40(3), 547573.Google Scholar
Lei, R. & Qiu, R. (2020). Chinese Bioethicists: He Jiankui’s crime is more than illegal medical practice. Available at www.thehastingscenter.org/chinese-bioethicists-he-jiankuis-crime-is-more-than-illegal-medical-practice/ (accessed December 3, 2021).Google Scholar
Lempert, R.J, Popper, S.W., Min, E.Y., Dewar, J.A., Light, P.C., Pritchett, L. & Treverton, G.F. (2009). Shaping Tomorrow Today: Near-Term Steps Towards Long-Term Goals, Santa Monica, CA: RAND Corporation. Available at https://eric.ed.gov/?id=ED506396 (accessed December 3, 2021).Google Scholar
Levi-Faur, D. (1997). Friedrich List and the Political Economy of the Nation-State. Review of International Political Economy, 4(1), 154178.Google Scholar
Lewis, J.M. (2011). The future of network governance research: Strength in diversity and synthesis. Public Administration, 89(4), 12211234.Google Scholar
Lieberthal, K. & Oksenberg, M. (1988). Policy Making in China: Leaders, Structures, and Processes. Princeton, NJ: Princeton University Press.Google Scholar
Lindtner, S.M. (2020). Prototype Nation: China and the Contested Promise of Innovation. Princeton, NJ: Princeton University Press.Google Scholar
List, F. (1841 [2005]). National System of Political Economy, New York: Cosimo.Google Scholar
Liu, S. & Li, l. (2002). Current practice of statistics on China’s government R&D investment and suggestion for improvement (in Chinese). Forum on Science and Technology in China, 5, 5661.Google Scholar
Liu, F., Simon, D., Sun, Y. & Cao, C. (2011). China’s innovation policies: Evolution, institutional structure, and trajectory. Research Policy, 40(7), 917931.Google Scholar
Liu, X. & White, S. (2001). Comparing innovation systems: A framework and application to China’s transitional context. Research Policy, 30(7), 10911114.Google Scholar
Lundvall, B.-Å. ed. (1992). National Systems of Innovation: Towards a Theory of Innovation and Interactive Learning, London: Pinter.Google Scholar
Lundvall, B.-Å. & Borrás, S. (2005). Science, technology, and innovation policy. In Fagerberg, J., Mowery, D.C. & Nelson, R.R., eds. The Oxford Handbook of Innovation. Oxford: Oxford University Press, pp. 599631.Google Scholar
Ma, J. & Yu, L. (2007). A study on the core budget office in China: A case study of a metropolitan government in central China (in Chinese). Journal of Huazhong Normal University (Humanities and Social Sciences), 46(2), 1725.Google Scholar
Mahdjoubi, D. (1997). Non-linear models of technological innovation: Background and taxonomy. Available at www.ischool.utexas.edu/~darius/04-Linear%20Model.pdf.Google Scholar
Mahroum, S. (2000). Highly skilled globetrotters: Mapping the international migration of human capital. R&D Management, 30(1), 2332.Google Scholar
Martin, B.R. & Nightingale, P. eds. (2000). The Political Economy of Science, Technology and Innovation. Cheltenham: Edward Elgar Publishing.Google Scholar
Masiello, B., Izzo, F. & Canoro, C. (2015). The structural, relational and cognitive configuration of innovation networks between SMEs and public research organisations. International Small Business Journal, 33(2), 169193.Google Scholar
Massey, D.S., Arango, J., Hugo, G., Kouaouci, A., Pellegrino, A. & Taylor, J.E. (1993). Theories of international migration: A review and appraisal. Population and Development Review, 19(3), 431466.Google Scholar
Mathews, J.A. (2002). The origins and dynamics of Taiwan’s R&D consortia. Research Policy, 31(4), 633651.Google Scholar
Mazzucato, M. (2013). The Entrepreneurial State: Debunking the Public vs. Private Myth in Risk and Innovation, London: Anthem Press.Google Scholar
Mazzucato, M. (2018). Mission-oriented innovation policies: Challenges and opportunities. Industrial and Corporate Change, 27(5), 803815.Google Scholar
McGregor, J. (2010). China’s Drive for “Indigenous Innovation”: A Web of Industrial Policies. Washington, DC: US Chamber of Commerce.Google Scholar
Medeiros, E.S., Cliff, R., Crane, K. & Mulvenon, J.C. (2005). A New Direction for China’s Defense Industry. Santa Monica, CA: RAND Corporation. Available at www.dtic.mil/dtic/tr/fulltext/u2/a449324.pdf (accessed December 3, 2021).Google Scholar
Meng, W., Hu, Z. & Liu, W. (2006). Efficiency evaluation of basic research in China. Scientometrics, 69(1), 85101.Google Scholar
Meyer, J.B., Kaplan, D. & Charum, J. (2001). Scientific nomadism and the new geopolitics of knowledge. International Social Science Journal, 53(168), 309321.Google Scholar
Min, Q. (2014). China mobile’s dead end on the 3G Highway. Available at http://english.caixin.com/2014-12-15/100762382.html (accessed December 3, 2021).Google Scholar
Ministry of Finance (MOF). (2007). Administrative measures on the project expenditure budget at the central level (in Chinese). Available at http://yss.mof.gov.cn/zhengwuxinxi/zhengceguizhang/200805/t20080522_33871.html (accessed December 3, 2021).Google Scholar
Ministry of Education (MOE). (2021). Number of students in higher education institutions (in Chinese). Available at (accessed August 30, 2022).Google Scholar
Ministry of Science and Technology (MOST). (2009). A compilation of policy implementation details accompanying the medium- and long-term plan for the development of science and technology (2006–2020) (in Chinese). Available at www.most.gov.cn/ztzl/gjzctx/index.htm (accessed December 3, 2021).Google Scholar
Ministry of Science and Technology (MOST). (2009). China Science and Technology Indicators 2008 (in Chinese). Beijing: Scientific and Technical Documentation Press.Google Scholar
Ministry of Science and Technology (MOST). (2010). China Science and Technology Development Report 2010 (in Chinese). Available at www.most.gov.cn/kjfz/kjxz/ (accessed December 3, 2021).Google Scholar
Ministry of Science and Technology (MOST). (2011). Annual Report of the National Programs of Science and Technology Development 2011 (in Chinese). Available at www.most.gov.cn/ndbg/ (accessed December 3, 2021).Google Scholar
Ministry of Science and Technology (MOST). (2011). China Science and Technology Indicators 2010 (in Chinese). Beijing: Scientific and Technical Documentation Press.Google Scholar
Ministry of Science and Technology (MOST). (2012). Annual Report of the National Programs of Science and Technology Development 2012 (in Chinese). Available at www.most.gov.cn/ndbg/ (accessed December 3, 2021).Google Scholar
Ministry of Science and Technology (MOST) and National Bureau of Statistics of China (NBS). (Various years). China Statistical Yearbook on Science and Technology. Beijing: National Statistics Press.Google Scholar
Mintzberg, H. & Waters, J.A. (1985). Of strategies, deliberate and emergent. Strategic Management Journal, 6(3), 257272.CrossRefGoogle Scholar
Morano-Foadi, S. (2005). Scientific mobility, career progression, and excellence in the European research area. International Migration, 43(5), 133162.Google Scholar
Morlacchi, P. & Martin, B.R. (2009). Emerging challenges for science, technology and innovation policy research: A reflexive overview. Research Policy, 38(4), 571582.Google Scholar
Mowery, D.C. (2009). Plus ca change: Industrial R&D in the “Third Industrial Revolution.” Industrial and Corporate Change, 18(1), 150.Google Scholar
Mowery, D.C. (2012). Defense-related R&D as a model for “Grand Challenges” technology policies. Research Policy, 41(10), 17031715.Google Scholar
Mowery, D.C. & Nelson, R.R., eds. (1999). Sources of Industrial Leadership: Studies of Seven Industries, Cambridge and New York: Cambridge University Press.Google Scholar
Mowery, D.C., Nelson, R.R. & Martin, B.R. (2010). Technology policy and global warming: Why new policy models are needed (or why putting new wine in old bottles won’t work). Research Policy, 39(8), 10111023.Google Scholar
National Bureau of Statistics (NBS) & Ministry of Science and Technology (MOST). (2009). 2008 China Statistical Yearbook on Science and Technology. Beijing: China Statistics Press.Google Scholar
National Bureau of Statistics (NBS), Ministry of Science and Technology (MOST) & Ministry of Finance (MOF). (2012). Statistical bulletin of national S&T expenditures in 2011 (in Chinese). Available at www.stats.gov.cn/tjgb/rdpcgb/qgrdpcgb/t20121025_402845404.html (accessed December 3, 2021).Google Scholar
National Bureau of Statistics of China (NBS) (comp.). (2021). 2021 China Statistical Yearbook. Beijing: China Statistics Press.Google Scholar
National Bureau of Statistics of China (NBS). (2022). Statistical communiqué of the People’s Republic of China on national economic and social development in 2021 (in Chinese). Available at www.gov.cn/xinwen/2022-02/28/content_5676015.htm (accessed July 15, 2022).Google Scholar
National Natural Science Foundation of China (NSFC). (2012). International Evaluation of Funding and Management of the National Natural Science Foundation of China. Available at www.nsfc.gov.cn/english/03re/index.html (accessed December 3, 2021).Google Scholar
National Science Board (NSB). (2020). Science & Engineering Indicators 2020. Available at https://ncses.nsf.gov/pubs/nsb20201 (accessed December 3, 2021).Google Scholar
National Science Board (NSB). (2023). Chief Statistician Li Ying of the Department of Society, Science and Technology, and Cultural Industries, National Bureau of Statistics, Interprets Data on R&D Expenditure (in Chinese). Available at: www.stats.gov.cn/tjsj/sjjd/202301/t20230119_1892374.html (accessed February 19, 2023).Google Scholar
National Science Board (NSB) & National Science Foundation (NSF). (2022). Research and Development: U.S. Trends and International Comparisons. Science and Engineering Indicators 2022. NSB-2022-5. Alexandria, VA. Available at https://ncses.nsf.gov/pubs/nsb20225/ (accessed August 30, 2022).Google Scholar
Naughton, B. (2009). China’s emergence from economic crisis. China Leadership Monitor, 29. Available at http://media.hoover.org/documents/CLM29BN.pdf (accessed December 3, 2021).Google Scholar
Naughton, B. (2021). The Rise of China’s Industrial Policy, 1978 To 2020. Available at https://dusselpeters.com/CECHIMEX/Naughton2021_Industrial_Policy_in_China_CECHIMEX.pdf (accessed December 3, 2021).Google Scholar
Neal, H.A., Smith, T.L. & McCormick, J.B. (2008). Beyond Sputnik: U.S. Science Policy in the 21st Century. Ann Arbor, MI: University of Michigan Press.Google Scholar
Nelson, R.R. (1959). The simple economics of basic scientific research. Journal of Political Economy, 67(3), 297306.Google Scholar
Nelson, R.R., ed. (1993). National Innovation Systems: A Comparative Analysis. Oxford: Oxford University Press.Google Scholar
Neven, D. & Seabright, P. (1995). European industrial policy: The Airbus case. Economic policy, 10(21), 313358.Google Scholar
Nielsen, J. (1988). Fifth Generation 1988 Trip Report. Oxford: Nielsen Norman Group. Available at www.nngroup.com/articles/trip-report-fifth-generation/ (accessed December 3, 2021).Google Scholar
Nolan, C.J. (2002). The Greenwood Encyclopaedia of International Relations. Westport, CT: The Greenwood Press.Google Scholar
Obama, B. (2016). State of the Union 2016. Available at http://edition.cnn.com/2016/01/12/politics/state-of-the-union-2016-transcript-full-text/index.html (accessed December 3, 2021).Google Scholar
Office of Scientific Research and Development (OSRD) US. (1945). Science, the Endless Frontier: A Report to the President. Ann Arbor, MI: University of Michigan Library.Google Scholar
Office of the Under Secretary of Defense (OUSD). (1990). VHSIC Final Program Report (1980–1990). Available at http://oai.dtic.mil/oai/oai?verb=getRecord&metadataPrefix=html&identifier=ADA230012. (accessed December 3, 2021).Google Scholar
Okimoto, D.I. (1989). Between MITI and the Market: Japanese Industrial Policy for High Technology. Stanford, CA: Stanford University Press.Google Scholar
Organization for Economic Cooperation and Development (OECD). (1997). National Innovation Systems. Paris: OECD Publishing.Google Scholar
Organization for Economic Cooperation and Development (OECD). (2002). Frascati Manual. Paris: OECD Press.Google Scholar
Organization for Economic Cooperation and Development (OECD). (2005). China in Global Economy: Governance in China. Paris: OECD.Google Scholar
Organization for Economic Cooperation and Development (OECD). (2008). OECD Reviews of Innovation Policy: China. Paris: OECD.Google Scholar
Organization for Economic Cooperation and Development (OECD). (2013). OECD Science, Technology and Industry Scoreboard 2013: Innovation for Growth, Paris: OECD.Google Scholar
Organization for Economic Cooperation and Development (OECD). (2015). Frascati Manual 2015 – Guidelines for Collecting and Reporting Data on Research and Experimental Development. Paris: OECD. Available at www.oecd.org/sti/inno/Frascati-Manual.htm (accessed December 3, 2021).Google Scholar
Organization for Economic Cooperation and Development (OECD). (2022). Main Science and Technology Indicators. www.oecd.org/sti/msti.htm (accessed August 30, 2022).Google Scholar
Ostry, S. & Nelson, R.R. (1995). Techno-Nationalism and Techno-Globalism: Conflict and Cooperation. Washington, DC: Brookings Institution Press.Google Scholar
Pan, S.Y. (2010). Changes and challenges in the flow of international human capital: China’s experience. Journal of Studies in International Education, 14(3), 259288.Google Scholar
Party Literature Research Office (PLRO) & the Central Committee of the Communist Party of China (CC CPC). (2004). A Chronicle of Deng Xiaopeng’s Life (1975–1997) (in Chinese). Beijing: The Central Literature Press.Google Scholar
Pavitt, K. & Walker, W. (1976). Government policies towards industrial innovation: A review. Research policy, 5(1), 1197.Google Scholar
Perelman, M. (1978). Karl Marx’s theory of science. Journal of Economic Issues, 12(4), 859870.Google Scholar
Pierson, P. (2000). Increasing returns, path dependence, and the study of politics. American Political Science Review, 94(2), 251267.Google Scholar
Popper, K. (2002). The Logic of Scientific Discovery, New York: Routledge.Google Scholar
Powell, W.W., Koput, K.W. & Smith-Doerr, L. (1996). Interorganizational collaboration and the locus of innovation: Networks of learning in biotechnology. Administrative Science Quarterly, 41(1), 116145.Google Scholar
Qiu, J. (2009). China targets top talent from overseas. Nature, 457(7229), 522.Google Scholar
Research Department of the Ministry of Science and Technology (MOST) & General Office and the Chinese Academy of Science and Technology for Development (CASTED). (2006). Analysis and Study of National Policies Promoting Indigenous Innovation (1980–2005) (in Chinese).Google Scholar
Rockett, K. (2010). Property rights and invention. In Hall, B.H. & Rosenberg, N., eds. Handbook of the Economics of Innovation. Amsterdam, The Netherland: North-Holland, vol. 1, pp. 315380.Google Scholar
Rhodes, R.A.W. (2006). Policy network analysis. In Moran, M., Rein, M., Goodin, R.E., eds. The Oxford Handbook of Public Policy. Oxford: Oxford University Press, pp. 423445.Google Scholar
Rhodes, R.A.W. (2013). How to manage your policy network. Discussion Paper Prepared for the Commonwealth Secretariat. Available online at www.raw-rhodes.co.uk/wp-content/uploads/2013/07/Com-Sec-2013-v2.pdf (accessed December 3, 2021).Google Scholar
Robins, G., Lewis, M.J. & Wang, P. (2012). Statistical network analysis for analyzing policy networks. The Policy Studies Journal, 40 (3), 375400.Google Scholar
Romer, P.M. (1990). Endogenous technological change. Journal of Political Economy, 98(5), 71102.Google Scholar
Romer, P.M. (2000). Should the government subsidize supply or the demand in the market for scientists and engineers? Innovation Policy and the Economy, 1, 221252.Google Scholar
SASAC. (2021). Text record of the press conference on the economic operation of central enterprises in 2021 (in Chinese). Available at www.sasac.gov.cn/n2588020/n2877938/n2879597/n2879599/c22813392/content.html (accessed May 5, 2022).Google Scholar
Sagasti, F. (1989). Science and technology policy research for development: An overview and some priorities from a Latin American perspective. Bulletin of Science, Technology & Society, 9(1), 5060.Google Scholar
Sakakibara, K. (1983). From Imitation to Innovation: The Very Large Scale Integrated (VLSI) Semiconductor Project in Japan. Cambridge, MA: Massachusetts Institute of Technology.Google Scholar
Sampat, B.N. (2012). Mission-oriented biomedical research at the NIH. Research Policy, 41(10), 17291741.Google Scholar
Sandström, A. & Carlsson, L. (2008). The performance of policy networks: The relation between network structure and network performance. The Policy Studies Journal, 36(4), 497520.Google Scholar
Sarewitz, D. (2016). Saving science. The New Atlantis, 49(1), 440.Google Scholar
Saxenian, A.L. (2005). From Brain Drain to Brain Circulation: Transnational Communities and Regional Upgrading in India and China. Studies in Comparative International Development, 40(2), 3561.Google Scholar
Scharpf, F.W. (1997). Games Real Actors Play, Actor-Centered Institutionalism in Policy Research. Boulder, CO: Westview Press.Google Scholar
Schumpeter, J.A. (1939). Business Cycles: A Theoretical, Historical, and Statistical Analysis of the Capitalist Process. New York: McGraw-Hill.Google Scholar
Serger, S.S. & Breidne, M. (2007). China’s fifteen-year plan for science and technology: An assessment. Asia Policy, 4(1), 135164.Google Scholar
Shi, D., Liu, W., & Wang, Y. (2023). Has China’s Young Thousand Talents program been successful in recruiting and nurturing top-caliber scientists? Science, 379(6627), 6265.Google Scholar
Shi, Y. & Rao, Y. (2010). China’s research culture. Science, 329(5996), 1128.Google Scholar
Simon, D.F. & Cao, C. (2009). China’s Emerging Technological Edge Assessing the Role of High-End Talent. New York: Cambridge University Press.Google Scholar
Simon, D.F. & Cao, C. (2012). Examining China’s science and technology statistics: A systematic perspective. Journal of Science and Technology Policy in China, 3(1), 2648.Google Scholar
Smith, A. (1776 [1999]). The Wealth of Nations, New York: Penguin Books.Google Scholar
Snijders, T.A.B., van de Bunt, G.G. & Steglich, C. (2010). Introduction to actor-based models for network dynamics. Social Networks, 32(1), 4460.Google Scholar
Soete, L., Verspagen, B., & Weel, B.R.. (2010). Systems of innovation. In Hall, B.H. and Rosenberg, N., eds. Handbook of the Economics of Innovation, Amsterdam: North-Holland, vol. 2, pp. 11591180.Google Scholar
Solow, R. (1956). A contribution to the theory of economic growth. Quarterly Journal of Economics, 70, 6594.Google Scholar
Sørensen, E. & Torfing, J., eds. (2007). Theories of Democratic Network Governance. Basingstoke: Palgrave Macmillan.Google Scholar
Spector, R. (2010). The War on Cancer: A progress report for skeptics. Skeptical Inquirer, 34(1), 2531. Available at www.csicop.org/si/show/war_on_cancer_a_progress_report_for_skeptics (accessed December 3, 2021).Google Scholar
Stark, O. (2004). Rethinking the brain drain. World Development, 32(1), 1522.Google Scholar
Stark, O., Helmenstein, C. & Prskawetz, A. (1997). A brain gain with a brain drain. Economics Letters, 55(2), 227234.Google Scholar
Stark, O., Helmenstein, C. & Prskawetz, A. (1998). Human capital depletion, human capital formation, and migration: A blessing or a “curse”? Economics Letters, 60(3), 363367.Google Scholar
Stephan, P.E. (2012). How Economics Shapes Science. Cambridge, MA: Harvard University Press.Google Scholar
Stuart, T. & Wang, Y. (2016). Who cooks the books in China, and does it pay? Evidence from private, high-technology firms. Strategic Management Journal, 37(13), 26582676.Google Scholar
Sun, Z. (2012). More than five billion RMB has been spent on the MEPs of developing new drugs. Available at news.sciencenet.cn/htmlnews//2009/5/218970.html (accessed on December 12, 2012).Google Scholar
Sun, Y. & Cao, C. (2014). Demystifying central government R&D spending in China: Should funding focus on scientific research? Science, 345(6200), 10061008.Google Scholar
Sun, Y. & Cao, C. (2015). Intra-and inter-regional research collaboration across organizational boundaries: Evolving patterns in China. Technological Forecasting and Social Change, 96, 215231.Google Scholar
Sun, Y. & Cao, C. (2016). China: Standardize R&D costing. Nature, 536(7614), 30.Google Scholar
Sun, Y. & Cao, C. (2020). The dynamics of the studies of China’s science, technology and innovation (STI): A bibliometric analysis of an emerging field. Scientometrics, 124(2), 13351365.Google Scholar
Sun, Y. & Cao, C. (2021). Planning for science: China’s “grand experiment” and global implications. Humanities and Social Sciences Communications, 8(1), 215.Google Scholar
Sun, Y. & Grimes, S. (2016). The emerging dynamic structure of national innovation studies: A bibliometric analysis. Scientometrics, 106(1), 1740.Google Scholar
Sun, Y. & Grimes, S. (2018). China and Global Value Chains: Globalization and the Information and Communications Technology Sector. London and New York: Routledge.Google Scholar
Sun, Y., Guo, R. & Zhang, S. (2017). China’s brain gain at the high end: An assessment of Thousand Youth Talents Program. Asian Journal of Innovation and Policy, 6(3), 274294.Google Scholar
Sun, Y. & Liu, F. (2010). A regional perspective on the structural transformation of China’s national innovation system since 1999. Technological Forecasting and Social Change, 77(8), 13111321.Google Scholar
Sun, Y. & Liu, F. (2014). New trends in Chinese innovation policies since 2009: A system framework of policy analysis. International Journal of Technology Management, 65(1–4), 623.Google Scholar
Sun, Y. & Liu, K. (2016). Proximity effect, preferential attachment and path dependence in inter-regional network: A case of China’s technology transaction. Scientometrics, 108(1), 201220.Google Scholar
Suttmeier, R.P. (1981). Science, Technology and China’s Drive for Modernization. Stanford, CA: Hoover Institution.Google Scholar
Suttmeier, R.P., Cao, C. & Simon, D.F. (2006). China’s innovation challenge and the remaking of the Chinese Academy of Sciences. Innovations: Technology, Governance, & Globalization, 1(3), 7897.Google Scholar
Suttmeier, R.P. & Shi, B. (2008). Success in “Pasteur’s quadrant”? The Chinese Academy of Sciences and its role in the national innovation system. In Rowen, H.S., Hancock, M.G. & Miller, W.F., eds. Great China’s Question for Innovation, Washington, DC: Brookings Institute Press, pp. 3556.Google Scholar
Suttmeier, P.R. & Yao, X. (2011). China’s IP Transition. NBR Special Report #29. Seattle, WA: The National Bureau of Asian Research. Available at https://china-us.uoregon.edu/pdf/IP_report.pdf (accessed December 3, 2021).Google Scholar
Tai, Q. & Rory, T. (2015). Public opinion towards return migration: A survey experiment of Chinese netizens. The China Quarterly, 223, 770786.Google Scholar
Tang, L., Cao, C., Wang, Z. & Zhou, Z. (2021). Decoupling in science and education: A collateral damage beyond deteriorating US–China relations. Science and Public Policy, 48(5), 630634.Google Scholar
Taylor, M.Z. (2016). The Politics of Innovation: Why Some Countries Are Better than Others at Science and Technology. New York: Oxford University Press.Google Scholar
The Center for Knowledge Societies. (2008). Emerging economy report: Societal intelligence for business innovation. Available at http://cks.in/wp-content/uploads/2012/10/01_Report-Introduction.pdf (accessed December 3, 2021).Google Scholar
Tian, F. (2013). Skilled flows and selectivity of Chinese scientists at global leading universities between 1998 and 2006. Journal of Science & Technology Policy in China, 4(2), 99118.Google Scholar
Trippl, M. & Maier, G. (2010). Knowledge spillover agents and regional development. Papers in Regional Science, 89(2), 229233.Google Scholar
Utterback, J.M. & Abernathy, W.J. (1975). A dynamic model of process and product innovation. Omega, 3(6), 639656.Google Scholar
Uzzi, B., Amaral, L. & Reed-Tsochas, F. (2007). Small world networks and management science research: A review. European Management Review, 4(2), 7791.Google Scholar
Van Noorden, R. (2012). Global mobility: Science on the move. Nature, 490(7420), 326329.Google Scholar
Van Waarden, F. (2001). Institutions and innovation: The legal environment of innovating firms. Organization Studies, 22(5), 765795.Google Scholar
Varela, D., Benedetto, G. & Sanchez-Santos, J.M. (2014). Editorial statement: Lessons from Goodhart’s law for the management of the journal. European Journal of Government and Economics, 3(2), 100103.Google Scholar
Vasudeva, G. (2009). How national institutions influence technology policies and firms’ knowledge-building strategies: A study of fuel cell innovation across industrialized countries. Research Policy, 38(8), 12481259.Google Scholar
Verschraegen, G. & Vandermoere, F. (2017). Introduction: Shaping the future through imaginaries of science, technology and society. In Verschraegen, G., Vandermoere, F., Braeckmans, L., & Segaert, B., eds. Imagined Futures in Science, Technology and Society. London: Routledge, pp. 117.Google Scholar
Vink, M., van der Steen, M.A. & Dewulf, A. (2016). Dealing with long-term policy problems: Making sense of the interplay between meaning and power. Futures, 76, 16.Google Scholar
Wang, S. (2008). Changing models of China’s policy agenda setting. Modern China, 34(1), 5687.Google Scholar
Wang, H. & Guo, J. (2012). Annual Report on the Development of China’s Study Abroad (No. 1) (in Chinese). Beijing: Social Sciences Academic Press.Google Scholar
Wang, C.C. & Lin, G.C.S. (2008). The growth and spatial distribution of China’s ICT industry: New geography of clustering and innovation. Issues & Studies, 44(2), 145192.Google Scholar
Wang, Z.Z. & Zhu, J.J. (2014). Homophily versus preferential attachment: Evolutionary mechanisms of scientific collaboration networks. International Journal of Modern Physics C, 25(5), 1440014.Google Scholar
Watts, D.J. & Strogatz, S.H. (1998). Collective dynamics of “small-world” networks. Nature, 393(6684), 440442.Google Scholar
Wen, J. (2013). The Regulations on the Disclosure of Government Information of the People's Republic of China. Available at www.gov.cn/zwgk/2007-04/24/content_592937.htm (assessed March 13, 2013).Google Scholar
Wong, J. (2011). Betting on Biotech: Innovation and the Limits of Asia’s Developmental State. Ithaca, NY: Cornell University Press.Google Scholar
Woolthuis, R.K., Lankhuizen, M. & Gilsing, V. (2005). A system failure framework for innovation policy design. Technovation, 25(6), 609619.Google Scholar
World Bank Group, Development Research Centre of the State Council & The People’s Republic of China. (2019). Innovative China: New Drivers for Growth. Washington, DC: World Bank.Google Scholar
World Intellectual Property Organization (WIPO). (2021). Global Innovation Index 2021: Tracking Innovation through the COVID-19 Crisis. Geneva: WIPO.Google Scholar
World Intellectual Property Organization (WIPO). (2022). Innovative Activity Overcomes Pandemic Disruption – WIPO’s Global Intellectual Property Filing Services Reach Record Levels. Geneva: WIPO. Available at www.wipo.int/pressroom/en/articles/2022/article_0002.html (accessed July 15, 2022).Google Scholar
White, G. & Wade, R. (1988). Developmental states and markets in East Asia: An introduction. In White, G., ed., Developmental States in East Asia. London: Macmillan, pp. 129.Google Scholar
Wübbeke, J., Meissner, M., Ives, M.J.Z.J., and Conrad, B. (2016). Made in China 2025 – The Making of a High-Tech Superpower and Consequences for Industrial countries. Berlin: Mercator Institute for China Studies (MERICS).Google Scholar
Xue, L. (1997). A historical perspective of China’s innovation system reform: A case study. Journal of Engineering and Technology Management, 14(1), 6781.Google Scholar
Yang, W. (2016). Policy: Boost basic research in China. Nature, 534(76080), 467469.Google Scholar
Yin, R.K. (2014). Case Study Research: Design and Methods. Thousand Oaks, CA: Sage Publications.Google Scholar
Yip, G.S. & McKern, B. (2016). China’s Next Strategic Advantage: From Imitation to Innovation. Cambridge, MA: The MIT Press.Google Scholar
Zeithammer, R. & Kellogg, R.P. (2013). The hesitant hai gui: Return-migration preferences of US-educated Chinese scientists and engineers. Journal of Marketing Research, 50(5), 644663.Google Scholar
Zhang, F., Cooke, P. & Wu, F. (2011). State-sponsored research and development: A case study of China’s biotechnology. Regional Studies, 45(5), 575595.Google Scholar
Zhang, C., Zeng, D.Z., Mako, W.P. & Seward, J. (2009). Promoting Enterprise-Led Innovation in China. Washington, DC: World Bank.Google Scholar
Zhang, X., & Whitley, R. (2013). Changing macro-structural varieties of East Asian capitalism. Socio-Economic Review, 11(2), 301336.Google Scholar
Zhao, L. (2005). Memorabilia of Yun-10 research and development (in Chinese). Aviation Archives, 6, 5253.Google Scholar
Zheng, H., De Jong, M. & Koppenjan, J. (2010). Applying policy network theory to policy-making in China: The case of unban health insurance reform. Public Administration, 88(2), 398417.Google Scholar
Zheng, Y. & Huang, Y. (2018). Market in State: The Political Economy of Domination in China. Cambridge: Cambridge University Press.Google Scholar
Zhong, X. & Yang, X. (2007). Science and technology policy reform and its impact on China’s national innovation system. Technology in Society, 29(3), 317325.Google Scholar
Zhou, S. (2008). China is expected to invest 690 billion RMB in nine major civilian MEPs by 2020 (in Chinese). Available at http://news.sciencenet.cn/htmlnews/2008/11/213754.html (accessed on November 12, 2012).Google Scholar
Zhou, L. & Shen, Z. (2011). Progress in high-speed train technology around the world. Journal of Modern Transportation, 19(1), 16.Google Scholar
Zhou, Y., Lazonick, W. & Sun, Y., eds. (2016). China as an Innovation Nation. Oxford: Oxford University Press.Google Scholar
Zhu, Z. & Gong, X. (2008). Basic research: Its impact on China’s future. Technology in Society, 30(3–4), 293298.Google Scholar
Zweig, D. (2006). Competing for talent: China's strategies to reverse the brain drain. International Labour Review, 145 (1–2), 6590.Google Scholar
Zweig, D., Kang, S. & Wang, H. (2020). “The best are yet to come”: State programs, domestic resistance and reverse migration of high-level talent to China. Journal of Contemporary China, 29(125), 776791.Google Scholar
Zweig, D. & Wang, H. (2013). Can China bring back the best? The Communist Party organizes China’s search for talent. The China Quarterly, 215, 590615.Google Scholar

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  • References
  • Yutao Sun, Dalian University of Technology, China, Cong Cao, University of Nottingham Ningbo, China
  • Book: The Political Economy of Science, Technology, and Innovation in China
  • Online publication: 07 August 2023
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  • References
  • Yutao Sun, Dalian University of Technology, China, Cong Cao, University of Nottingham Ningbo, China
  • Book: The Political Economy of Science, Technology, and Innovation in China
  • Online publication: 07 August 2023
Available formats
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  • References
  • Yutao Sun, Dalian University of Technology, China, Cong Cao, University of Nottingham Ningbo, China
  • Book: The Political Economy of Science, Technology, and Innovation in China
  • Online publication: 07 August 2023
Available formats
×