Abstract
Evaluating the effect of China pilot Free Trade Zone (FTZ) policy on green technology innovation is important for achieving China’s carbon neutrality targets. Based on the panel data of 30 provincial administrative regions in China from 2009 to 2019, this study investigates the effect of the pilot FTZ policy on green technology innovation by using the difference-in-differences method. The study’s findings indicate the following: (1) The pilot FTZ policy promotes the development of green technology innovation, and there is a policy lag in a few pilot regions. (2) The mediation effect analysis shows that the pilot FTZ policy promotes the development of green technology innovation by improving the marketization process and enhancing innovative talent gathering. (3) The heterogeneity analysis shows that the pilot FTZ policy is more effective in promoting green technology innovation when implemented in regions with developed economies or higher levels of human capital. Moreover, the pilot FTZ policy mainly has a significant promoting effect on green utility model patents. Based on these results, policy recommendations are proposed to promote the development of green technology innovation and the achievement of China’s carbon neutrality targets.
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References
Abadie A, Gardeazabal J (2003) The economic costs of conflict: a case study of the Basque Country. Am Econ Rev 93:113–132
Aghion P, Farhi E, Kharroubi E (2019) Monetary policy, product market competition and growth. Economica 86:431–470
Ba S, Cai H, Fang Y, Wang B (2021) Does the establishment of the pilot Free Trade Zone improve the efficiency of financial services for the real economy? World Econ Stud 12:3–21
Baronand RD (1986) A. Kenny, The moderator-mediator variable distinction in social psychological research: conceptual, strategic, and statistical considerations. J Pers Soc Psychol 51:1173–1182
Barro RJ, Lee J-W (1993) Losers and winners in economic growth. World Bank Econ Rev 7:267–298
Beck T, Levine R, Levkov A (2010) Big bad banks? The winners and losers from bank deregulation in the United States. J Financ 65:1637–1667
Boone C, Lokshin B, Guenter H, Belderbos R (2019) Top management team nationality diversity, corporate entrepreneurship, and innovation in multinational firms. Strateg Manage J 40:277–302
Button CE (2009) Towards carbon neutrality and environmental sustainability at CCSU. Int J Sustain High Educ 10:279–286
Cai J, Xin K, Zhou YH (2021) A dynamic panel data approach and HCW’s method: assessing the effect of China (Shanghai) Free Trade Zone on local GDP. J Manag Sci Eng 6:249–267
Cai X, Zhu BZ, Zhang HJ, Li L, Xie MY (2020) Can direct environmental regulation promote green technology innovation in heavily polluting industries? Evidence from Chinese listed companies. Sci Total Environ 746:140810
Cao BR, Wang SH (2017) Opening up, international trade, and green technology progress. J Clean Prod 142:1002–1012
Chen H, Yuan B, Cui Q (2021) Does the pilot Free Trade Zone policy attract the entering of foreign-invested enterprises? The evidence from China. Appl Econ Lett 28:1162–1168
Chen YQ, Zhang TJ, Ostic D (2022) Research on the green technology innovation cultivation path of manufacturing enterprises under the regulation of environmental protection tax law in China. Front Environ Sci 448
Chen YS (2008) The driver of green innovation and green image - green core competence. J Bus Ethics 81:531–543
Chetty R, Looney A, Kroft K (2009) Salience and taxation: theory and evidence. Am Econ Rev 99:1145–1177
Du KR, Li JL (2019) Towards a green world: how do green technology innovations affect total-factor carbon productivity. Energy Policy 131:240–250
Du Z, Xu C, Lin B (2022) Does the emission trading scheme achieve the dual dividend of reducing pollution and improving energy efficiency? Micro evidence from China. J Environ Manage 323:116202
Fan G, Wang X, Ma X (2011) Contribution of marketization to China’s economic growth. Econ Res J 46:4–16
Feng R, Chen L, Liu C (2020) Study on the effect of free trade zone construction on industrial structure supererogation. Inq Econ Issues 9:26–42
Feng Y, Wang X, Liang Z (2021) How does environmental information disclosure affect economic development and haze pollution in Chinese cities? The mediating role of green technology innovation. Sci Total Environ 775:145811
Florida R (2002) The economic geography of talent. Ann Assoc Am Geogr 92:743–755
Gill-Wiehl A, Brown T, Smith K (2022) The need to prioritize consumption: a difference-in-differences approach to analyze the total effect of India’s below-the-poverty-line policies on LPG use. Energy Policy 164:12
Guo Q, Zhou M, Liu NN, Wang YY (2019) Spatial effects of environmental regulation and green credits on green technology innovation under low-carbon economy background conditions. Int J Environ Res Public Health 16(17):3027
Horbach J, Rammer C, Rennings K (2012) Determinants of eco-innovations by type of environmental impact - the role of regulatory push/pull, technology push and market pull. Ecol Econ 78:112–122
Hu W, Wang D (2020) How does environmental regulation influence China’s carbon productivity? An empirical analysis based on the spatial spillover effect. J Clean Prod 257:120484
Jin Z, Yuan H (2021) The connection between the free trade zone and dual circulation: the established sample test and the reference from the perspective of Anhui. Prices Monthly (10):51–59
Kong T, Feng TW, Ye CM (2016) Article advanced manufacturing technologies and green innovation: the role of internal environmental collaboration. Sustainability 8(10):1056
La Ferrara E, Chong A, Duryea S (2012) Soap operas and fertility: evidence from Brazil. Am Econ J-Appl Econ 4:1–31
Li G, Xue Q, Qin J (2022) Environmental information disclosure and green technology innovation: empirical evidence from China. Technological Forecasting and Social Change 176:121453
Liang Q, Xiao S, Liu Y (2013) The Impact of government environmental policy on ecological efficiency: a quasi-natural experiment based on ecological civilization demonstration. J Xi’an Jiaotong Univ (Soc Sci) 42:61–70
Liu JG, Wang XY, Guo JY (2021) Port efficiency and its influencing factors in the context of pilot Free Trade Zones. Transp Policy 105:67–79
Long RY, Guo HY, Zheng DT, Chang RH, Na SY (2020) Research on the measurement, evolution, and driving factors of green innovation efficiency in Yangtze River economic belt: a super-SBM and spatial Durbin model. Complexity 2020:1–14
Lv X, Liu B (2021) The empirical test of the influence of free trade zone on human capital investment under the new development concept. Soft Sci 35:1–6+19
Lv C, Shao C, Lee C (2021) Green technology innovation and financial development: do environmental regulation and innovation output matter? Energy Econ 98:105237
Mensah CN, Long XL, Dauda L, Boamah KB, Salman M, Appiah-Twum F, Tachie AK (2019) Technological innovation and green growth in the Organization for Economic Cooperation and Development economies. J Clean Prod 240:118204
Pei Y, Zhu YM, Liu SX, Wang XC, Cao JJ (2019) Environmental regulation and carbon emission: the mediation effect of technical efficiency. J Clean Prod 236:117599
Saunila M, Ukko J, Rantala T (2018) Sustainability as a driver of green innovation investment and exploitation. J Clean Prod 179:631–641
Shang LN, Tan DQ, Feng SL, Zhou WT (2022) Environmental regulation, import trade, and green technology innovation. Environ Sci Pollut Res 29:12864–12874
Shen W, Vanhullebusch M (2015) Where is the alchemy? The experiment of the Shanghai free trade zone in freeing the foreign investment regime in China. Eur Bus Organ Law Rev 16:321–352
Shen X (2022) An analysis of the transformation of local government environmental strategy. J Xinjiang Normal Univ (edition of Philosophy and Social Sciences) 43:116–128
Shui B, Harriss RC (2006) The role of CO2 embodiment in US-China trade. Energy Policy 34:4063–4068
Tang MR, Mihardjo LWW, Haseeb M, Khan SAR, Jermsittiparsert K (2021) The dynamics effect of green technology innovation on economic growth and CO(2)emission in Singapore: new evidence from bootstrap ARDL approach. Environ Sci Pollut Res 28:4184–4194
Wang AP, Hu Y, Li YY, Rao SQ, Lin WF (2022a) Do pilot Free Trade Zones improve the green total factor productivity? Evidence from a quasi-natural experiment in China. Environ Sci Pollut Res 29:75307–75321
Wang HY, Zhang YH, Liu ZAK, Liu RK, Li KY (2022b) The impact and mechanisms of the Shanghai pilot Free-Trade Zone on the green total factor productivity of the Yangtze River delta urban agglomeration. Environ Sci Pollut Res 29:40997–41011
Wang J, Ma X, Zhao Y, Zhao J, Heydari M (2022c) Impact of scientific and technological innovation policies on innovation efficiency of high-technology industrial parks – a dual analysis with linear regression and QCA. Int J Innov Stud 6:169–182
Wang LH, Shao J (2022) Can China’s pilot Free Trade Zone improve trade efficiency? J Int Commer Econ Policy 13(02):2250006
Wang M, Xuan Y, Chen Q (2016) Creative class agglomeration, knowledge externalities and urban innovation. Econ Theory Bus Manag 01:59–70
Wu HQ, Hu SM (2020) The impact of synergy effect between government subsidies and slack resources on green technology innovation. J Clean Prod 274:122682
Xie C, Liu M (2020) Can marketization promote the upgrading of China’s manufacturing industry? Journal of Southeast University (Philosophy and Social Science) 22(06):75–84+153
Xing H, Yang Z, Zhang J (2022) Research on the influence of financial opening-up to innovation investment of high-end equipment manufacturing industry in Shanghai free trade zone. Ind Technol Econ 41:71–77
Xu J, Lei Y, Xing X (2020) The effect of pilot Free Trade Zone on innovation quality. Int Bus 04:17–31
Yao DQ, Whalley J (2016) The China (Shanghai) pilot Free Trade Zone: background, developments and preliminary assessment of initial impacts. World Econ 39:2–15
Zeng S, Tanveer A, Fu X, Gu Y, Irfan M (2022) Modeling the influence of critical factors on the adoption of green energy technologies. Renew Sustain Energy Rev 168:112817
Zeng X, Deng LB, Zhou MR, Li WY (2021) Nonlinear system simulation and forecasting of regional technology innovation using system dynamics method. IEEE Access 9:132354–132362
Zhang JX, Ouyang Y, Ballesteros-Perez P, Li H, Philbin SP, Li ZL, Skitmore M (2021) Understanding the impact of environmental regulations on green technology innovation efficiency in the construction industry. Sust Cities Soc 65:102647
Zhang TJ, Zhou JY, Wang M, Ren K, Imran M, Wang RY (2022) Cultivation mechanism of green technology innovation in manufacturing enterprises under environmental regulations in China. Front Environ Sci 10:926896
Zhang W, Li GX (2022) Environmental decentralization, environmental protection investment, and green technology innovation. Environ Sci Pollut Res 29:12740–12755
Zhang X, Xu B (2019) R&D internationalization and green innovation? Evidence from Chinese resource enterprises and environmental enterprises. Sustainability 11(24):7225
Zhou M, Lu Y, Fu D (2016) Trade liberalization and industrial upgrading in China: facts and mechanisms. J World Econ 39:78–102
Zuo J, Read B, Pullen S, Shi Q (2012) Achieving carbon neutrality in commercial building developments - perceptions of the construction industry. Habitat Int 36:278–286
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SB contributed to the manuscript framework, methodology, software, and writing. LS contributed to manuscript research guidance and review. CT contributed to the literature review and writing. WL contributed to the manuscript language revision and manuscript review. YC contributed to the manuscript language revision. JH helped refine the manuscript. All authors read and agreed to the published version of the manuscript.
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Bi, S., Shao, L., Tu, C. et al. Achieving carbon neutrality: the effect of China pilot Free Trade Zone policy on green technology innovation. Environ Sci Pollut Res 30, 50234–50247 (2023). https://doi.org/10.1007/s11356-023-25803-1
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DOI: https://doi.org/10.1007/s11356-023-25803-1