References
- An, H. S., Y. X. Zhou, and W. G. Bo. 2012. “An Analysis of Resource Curse: An Explanation from Technical Innovation and the Specific Factors Constraint — Based on the Experience Observation of China.” Nankai Economic Studies 32 (6): 100–115. (in Chinese).
- Andreoni, V., and S. Galmarini. 2012. “Decoupling Economic Growth from Carbon Dioxide Emissions: A Decomposition Analysis of Italian Energy Consumption.” Energy 44 (1): 682–691.
- Arico, S. 2014. “The Contribution of the Sciences, Technology and Innovation to Sustainable Development: The Application of Sustainability Science from the Perspective of UNESCO’s Experience.” Sustainability Science 9: 453–462.
- Bathelt, H. 2014. “The Creation of Knowledge: Local Building, Global Accessing and Economic Development-Toward an Agenda.” Journal of Economic Geography 14 (5): 869–882.
- Benos, N., and S. Karagiannis. 2015. “Proximity and Growth Spillovers in European Regions: The Role of Geographical, Economic and Technological Linkages.” Journal of Macroeconomics 43: 124–139.
- Brookes, L. G. 1978. “Energy Policy, the Energy Price Fallacy and the Role of Nuclear Energy in the UK.” Energy Policy 6 (2): 94–106.
- Brunnermeier, S. B., and M. A. Cohen. 2003. “Determinants of Environmental Innovation in US Manufacturing Industries.” Journal of Environmental Economies and Management 45: 278–293.
- Cao, Y., N. N. Wan, H. Y. Zhang, et al. 2020. “Linking Environmental Regulation and Economic Growth Through Technological Innovation and Resource Consumption: Analysis of Spatial Interaction Patterns of Urban Agglomerations.” Ecological Indicators 112: 106062.
- Chang, S., and M. S. Lee. 2008. “The Linkage Between Knowledge Accumulation Capability and Organizational Innovation.” Journal of Knowledge Management 12 (1): 3–20.
- Cohen, W. M., and D. A. Levinthal. 1990. “Absorptive Capacity: A New Perspective on Learning and Innovation.” Administrative Science Quarterly 35 (1): 128–152.
- Csereklyei, Z., and D. I. Stern. 2015. “Global Energy Use: Decoupling or Convergence?” Energy Economics 51: 633–641.
- Damanpour, F., and W. E. Evan. 1984. “Organizational Innovation and Performance: The Problem of Organizational Lag.” Administrative Science Quarterly 29 (3): 392–409.
- Diakoulaki, D., and M. Mandaraka. 2007. “Decomposition Analysis for Assessing the Progress in Decoupling Industrial Growth from CO2 Emissions in the EU Manufacturing Sector.” Energy Economics 29 (4): 636–664.
- Dong, B., M. Zhang, H. L. Mu, et al. 2016. “Study on Decoupling Analysis Between Energy Consumption and Economic Growth in Liaoning Province.” Energy Policy 97: 414–420.
- Enevoldsen, M. K., A. V. Ryelund, and M. S. Andersen. 2007. “Decoupling of Industrial Energy Consumption and CO2-Emissions in Energy-Intensive Industries in Scandinavia.” Energy Economics 29 (4): 665–692.
- Fan, F., H. Lian, X. Y. Liu, and X. L. Wang. 2021. “Can Environmental Regulation Promote Urban Green Innovation Efficiency? An Empirical Study Based on Chinese Cities.” Journal of Cleaner Production, 287 (3): 1–10.
- Fan, F., H. Lian, and S. Wang. 2020. “Can Regional Collaborative Innovation Improve Innovation Efficiency? An Empirical Study of Chinese Cities.” Growth and Change 51: 440–463.
- Fan, F., and X. R. Zhang. 2021. “Transformation Effect of Resource-Based Cities Based on PSM-DID Model: An Empirical Analysis from China.” Environmental Impact Assessment Review 91 (11): 1–12.
- Freitas, L. C. D., and S. Kaneko. 2011. “Decomposing the Decoupling of CO2 Emissions and Economic Growth in Brazil.” Ecological Economics 70 (8): 1459–1469.
- Grand, M. C. 2016. “Carbon Emission Targets and Decoupling Indicators.” Ecological Indicators 67: 649–656.
- Greening, L. A., D. L. Greene, and C. Difiglio. 2000. “Energy Efficiency and Consumption—the Rebound Effect—a Survey.” Energy Policy 28 (6-7): 389–401.
- Guo, L. L., Y. Qu, and M. L. Tseng. 2017. “The Interaction Effects of Environmental Regulation and Technological Innovation on Regional Green Growth Performance.” Journal of Cleaner Production 162 (13): 894–902.
- Hellstrm, T. 2007. “Dimensions of Environmentally Sustainable Innovation: The Structure of eco-Innovation Concepts.” Sustainable Development 15: 148–159.
- Khazzoom, J. D. 1980. “Economic Implications of Mandated Efficiency in Standards for Household Appliances.” The Energy Journal 1 (4): 21–40.
- Li, H., J. X. Zhang, C. Wang, et al. 2018. “An Evaluation of the Impact of Environmental Regulation on the Efficiency of Technology Innovation Using the Combined DEA Model: A Case Study of Xi’an, China.” Sustainable Cities and Society 42: 355–369.
- Liu, S., F. Fan, and J. Q. Zhang. 2019. “Are Small Cities More Environmentally Friendly? An Empirical Study from China.” International Journal of Environmental Research and Public Health 16 (5): 727.
- OECD. 2002. Indicators to Measure Decoupling of Environmental Pressures from Economic Growth. Paris: OECD.
- Roman-Collado, R., J. M. Cansino, and C. Botia. 2018. “How far is Colombia from Decoupling? Two-Level Decomposition Analysis of Energy Consumption Changes.” Energy 148: 687–700.
- Saunders, H. D. 1992. “The Khazzoom-Brookes Postulate and Neoclassical Growth.” The Energy Journal 13 (4): 131–148.
- Schandl, H. 2016. “Decoupling Global Environmental Pressure and Economic Growth: Scenarios for Energy use, Materials use and Carbon Emissions.” The Journal 132 (20): 45–56.
- Schot, J., and W. E. Steinmueller. 2016. Framing Innovation Policy for Transformative Change: Innovation Policy 3. 0. Science Policy Research Unit (SPRU) Working Paper, University of Sussex.
- Sorrell, S., and J. Dimitropoulos. 2008. “The Rebound Effect: Microeconomic Definitions, Limitations, and Extensions.” Ecological Economics 65 (3): 636–649.
- Sun, J. 1998. “Changes in Energy Consumption and Energy Intensity: A Complete Decomposition Model.” Energy Economics 20 (1): 85–100.
- Tapio, P. 2005. “Towards a Theory of Decoupling: Degrees of Decoupling in the EU and the Case of Road Traffic in Finland Between 1970 and 2001.” Transport Policy 12 (2): 137–151.
- Wang, C. M. 2010. “Decoupling Analysis of China Economic Growth and Energy Consumption.” China Population, Resources and Environment 20 (3): 35–37. (in Chinese).
- Wang, S., M. Jia, Y. Zhou, and F. Fan. 2020. “Impacts of Changing Urban Form on Ecological Efficiency in China: A Comparison Between Urban Agglomerations and Administrative Areas.” Journal of Environmental Planning and Management 63 (10): 1834–1856.
- Wang, Q., R. Jiang, and R. R. Li. 2018. “Decoupling Analysis of Economic Growth from Water use in City: A Case Study of Beijing, Shanghai, and Guangzhou of China.” Sustainable Cities and Society 41: 86–94.
- Wang, Z. Y., X. F. Lu, and Z. L. Han. 2017. “Decoupling Analysis and Rebound Effect Between China's Marine Economic Growth and Resource Consumption.” Resources Science 39 (99): 1658–1669. (in Chinese).
- Wang, S., J. Q. Zhang, and F. Fan. 2019a. “The Symbiosis of Scientific and Technological Innovation Efficiency and Economic Efficiency in China – an Analysis Based on Data Envelopment Analysis and Logistic Model.” Technology Analysis & Strategic Management 31 (1): 67–80.
- Wang, Q., M. M. Zhao, and R. R. Li. 2019b. “Decoupling Sectoral Economic Output from Carbon Emissions on City Level: A Comparative Study of Beijing and Shanghai, China.” Journal of Cleaner Production 209: 126–133.
- Wu, D. 2014. “Evaluation and Prospect on the Decoupling Trend of Economic Development and Water Resource Utilization in China.” Journal of Natural Resources 29 (1): 46–54.
- Xia, Y., and M. C. Zhong. 2016. “Relationship Between EKC Hypothesis and the Decoupling of Environmental Pollution from Economic Development: Based on China Prefecture-Level Cities’ Decoupling Partition.” China Population, Resources and Environment 26 (10): 8–16. (in Chinese).
- Xiao, Z. L., and F. Fan. 2017. “Convergence in China’s High-Tech Industry Development Performance: A Spatial Panel Model.” Applied Economics 49 (52): 5296–5308.
- Xing, L., M. Xue, and M. Hu. 2019. “Dynamic Simulation and Assessment of the Coupling Coordination Degree of the Economy–Resource–Environment System: Case of Wuhan City in China.” Journal of Environmental Management 230: 474–487.
- Yang, Y., and G. F. Meng. 2019. “The Decoupling Effect and Driving Factors of Carbon Footprint in Megacities: The Case Study of Xi’an in Western China.” Sustainable Cities and Society 44: 783–792.
- Young, T. M. 2007. “Aircraft Design Innovation: Creating an Environment for Creativity.” Journal of Aerospace Engineering 221 (2): 165–174.
- Yu, H. C., Y. Liu, and C. L. Liu. 2018. “Spatiotemporal Variation and Inequality in China’s Economic Resilience Across Cities and Urban Agglomerations.” Sustainability 10 (12): 4757.
- Yu, Y. D., L. Zhou, and W. J. Zhou. 2017. “Decoupling Environmental Pressure from Economic Growth on City Level: The Case Study of Chongqing in China.” Ecological Indicators 75: 27–35.
- Yuan, Q. M., J. Qiu, and C. C. Qin. 2014. “Decoupling Relationship and Rebound Effect Between Economic Growth and the Resource Environment for Tianjin.” Resources Science 36 (5): 954–962.
- Yuan, B., and Q. Xiang. 2018. “Environmental Regulation, Industrial Innovation and Green Development of Chinese Manufacturing: Based on an Extended CDM Model.” Journal of Cleaner Production 176 (14): 895–908.
- Zhao, M. M., and R. R. Li. 2018. “Decoupling and Decomposition Analysis of Carbon Emissions from Economic Output in Chinese Guangdong Province: A Sector Perspective.” Energy & Environment 29 (4): 543–555.
- Zhao, X., Y. Zhao, S. Zeng, et al. 2015. “Corporate Behavior and Competitiveness: Impact of Environmental Regulation on Chinese Firms.” Journal of Cleaner Production 86 (12): 311–322.
- Zhong, T. Y., X. J. Huang, L. Han, et al. 2010. “Review on the Research of Decoupling Analysis in the Field of Environment and Resource.” Journal of Natural Resources 25 (8): 1400–1412.