Academic Journal of Business & Management, 2025, 7(2); doi: 10.25236/AJBM.2025.070220.
Jiayi Zhao
International Business College, Dongbei University of Finance and Economics, Dalian, Liaoning, 116025, China
Against the backdrop of sustainable development, green innovation is a strategic choice to achieve the dual goals of economic growth and environmental protection. Using panel data of enterprises from 31 provincial-level regions in China from 2011 to 2022, this study explores the synergistic configuration effects of digital finance, digital transformation, digital infrastructure, and executives' digital background on regional green innovation from a configurational perspective using fsQCA. The findings reveal that digital finance is the most critical condition, as high levels of regional green innovation are largely inseparable from it. Four pathways to enhancing regional green innovation are identified, including a capital-driven path and a multi-factor combination path for green innovation invention patents, as well as a capital-driven path and a dual-element path for green utility model patents. For green innovation invention patents, high-level digital finance is the most significant promoting factor, while digital transformation and executives’ digital background require high levels in the multi-factor combination path, but no high-level requirement is observed for digital infrastructure in either path. For green utility model patents, digital finance remains the most significant factor, while executives’ digital background plays a certain role in the dual-element path, and neither digital transformation nor digital infrastructure shows high-level requirements. This study investigates the coupling effects of multiple factors and how various digital forms of enterprises influence regional green innovation levels, providing a novel perspective and pathway for green innovation development in regions with low overall digitalization levels and resource-constrained small and medium-sized enterprises.
Green Innovation, QCA, Digital Finance, Digital Transformation, Executives’ Background, Configurational Effects
Jiayi Zhao. Configural Pathways of Digital Empowerment for Green Innovation: Evidence from China. Academic Journal of Business & Management (2025), Vol. 7, Issue 2: 147-159. https://doi.org/10.25236/AJBM.2025.070220.
[1] Guinot, J., Z. Barghouti and R. Chiva (2022). "Understanding Green Innovation: A Conceptual Framework." Sustainability, 14(10), Article ID: 5787.
[2] Li, M., Y. Hou, Z. Jia and J. Li (2023). "Role of green technological innovation in the green economic growth in China's natural resource markets." Resources Policy, 86. Article ID: 104187.
[3] Zhang, H., J. Wu, Y. Mei and X. Hong (2024). "Exploring the relationship between digital transformation and green innovation: The mediating role of financing modes." Journal of Environmental Management, 356.
[4] Ziqi, Z., S. Zhi, and T. Fang, Does digital transformation restrain corporate financialization? Evidence from China. Finance Research Letters, 2023. 56.
[5] Han, L. and Z. Zhang (2023). "Impact of digital finance on enterprise green innovation: From the perspective of information asymmetry, consumer demand and factor market distortions." Plos One, 18(12) , Article ID: e0295809.
[6] Wang, W., J. Wang and H. Wu (2024). "Assessing the Impact of New Digital Infrastructure on Enterprise Green Transformation from a Triple Performance Perspective." Journal of the Knowledge Economy, DOI10.1007/s13132-024-01976-z.
[7] Pan, J., H. Bao, J. Cifuentes-Faura and X. Liu (2024). "CEO's IT background and continuous green innovation of enterprises: evidence from China." Sustainability Accounting Management and Policy Journal, 15(4): 807-832.
[8] Lee, C.-C., Z.-W. He and Z. Yuan (2023). "A pathway to sustainable development: Digitization and green productivity." Energy Economics, 124. Article ID:106772.
[9] Wang, F., T. Jiang and X. Guo (2018). "Government quality, environmental regulation and green technological innovation of enterprises." Science Research Management, 39(1): 26-33.
[10] Li, Z., L. Kong and K. Xu (2024). "Do environmental target constraints promote corporate pollution reduction?" Environmental Research Communications, 6(3).
[11] Zhang, W., Y. Wang and W. Zhang (2024). "How Double-Carbon Policies Affect Green Technology Innovation Capability of Enterprise: Empirical Analysis Based on Spatial Dubin Model." Ieee Transactions on Engineering Management, 71: 9953-9965.
[12] Wang, Y. and W. Wang (2024). "How green industrial policy affects the constancy of green technology innovation: a fresh proof from the innovation motivation perspective." Environmental Research Communications, 6(3).
[13] Zhang, Q., Y. Chen and Y. Cao (2024). "Local Government Environment Goal Setting, Government Behavior, and Urban Green Technology Innovation." Journal of Nonlinear and Convex Analysis, 25(5): 669-682.
[14] Zhang, H. and J. Lai (2024). "Auditing leading officials: Unintended consequences of government audit reform on corporate green innovation." Economic Modelling, 139: Article ID:106820
[15] Xiao, Y., B. Zhang and H. Wang (2024). "Research on the impact of environmental regulations on green technological innovation in China from the perspective of digital transformation: a threshold model approach." Environmental Research Communications, 6(3).
[16] Ma, R. and B. Lin (2024). "Internet development, information availability, and Chinese enterprises' cooperative green technology innovation." Journal of environmental management, 367: 121972.
[17] Liang, P., X. Sun and L. Qi (2023). "Does artificial intelligence technology enhance green transformation of enterprises: based on green innovation perspective." Environment, Development and Sustainability, 26(8): 21651-21687.
[18] Zheng, Y., J. Li and X. Zhang (2023). "Executives with overseas background and green innovation." Finance Research Letters, 58. Article ID:104616.
[19] Deng, L. and Z. Zhong (2024). "The impact of digital infrastructure on carbon emissions: evidence from 284 cities in China." Economic Change and Restructuring, 57(5). Article ID:159.
[20] Wang, Y., X. Zhang, F. Lin and M. Peng (2023). "The role of digital governance on carbon emission performance: evidence from the cities in yangtze river delta, China." Environmental Research Communications, 5(8).
[21] Yuan, B. and X. Cao (2022). "Do corporate social responsibility practices contribute to green innovation? The mediating role of green dynamic capability." Technology in Society, 68.
[22] Liu, Y., Y. Yin and X. Yang (2024). "Quantity or quality: The impact of environmental information disclosure on green innovation." Science Research Management, 45(4): 166-174.
[23] Lou, S., C. Yao and D. Zhang (2023). "How to promote green innovation of high-pollution firms? A fuzzy-set QCA approach based on the TOE framework." Environment Development and Sustainability.
[24] Li, L. and W. Chen (2023). "Analysis and Enlightenment of Green New Deal for Carbon Neutrality in Developed Countries Based on Three-dimensional Model." World Sci-Tech R&D, 45(5): 531-542.
[25] Xie, X., J. Huo and H. Zou (2019). "Green process innovation, green product innovation, and corporate financial performance: A content analysis method." Journal of Business Research, 101: 697-706.
[26] Shao, L. and J. Chen (2023). "Digital finance and regional green innovation: the perspective of environmental regulation." Environmental Science and Pollution Research, 30(36): 85592-85610.
[27] Kong, T., R. Sun, G. Sun and Y. Song (2022). "Effects of Digital Finance on Green Innovation considering Information Asymmetry: An Empirical Study Based on Chinese Listed Firms." Emerging Markets Finance and Trade, 58(15): 4399-4411.
[28] Jie, W. and W. Jun (2023). "The dynamic impact of digital finance on green innovation: evidence enterprise-level empirical data in China." Environmental science and pollution research international , 30(53): 113424-113441.
[29] Yu, X. (2024). "Potential contributions of digital finance to alleviating the 'low-end lock-in' dilemma for green innovation in enterprises." Environmental Research Communications, 6(5).
[30] Chen, W., G. Arn, H. Song and Y. Xie (2024). "The influences of digital finance on green technological innovation in China's manufacturing sector: The threshold effects of ESG performance." Journal of Cleaner Production, 467: Article ID:142953
[31] Sun, Y. (2024). "Digital transformation and corporates' green technology innovation performance–The mediating role of knowledge sharing." Finance Research Letters, 62(PA): Article ID:105105
[32] Tao, A., C. Wang, S. Zhang and P. Kuai (2024). "Does enterprise digital transformation contribute to green innovation? Micro-level evidence from China." Journal of Environmental Management, 370.
[33] Huang, Y. and C.-w. Lau (2024). "Can digital transformation promote the green innovation quality of enterprises? Empirical evidence from China." Plos One, 19(3).
[34] Rupeika-Apoga, R., K. Petrovska and L. Bule (2022). "The Effect of Digital Orientation and Digital Capability on Digital Transformation of SMEs during the COVID-19 Pandemic." Journal of Theoretical and Applied Electronic Commerce Research, 17(2): 669-685.
[35] Lou, P. and X. Zhou (2024). "Digital transformation, green innovation, and audit fees." Frontiers in Environmental Science, 12.
[36] Liu, X., B. Lv and Q. Zhou (2024). "Why do Employees (not) Support Enterprise Digital Transformation? A Transactional Theory of Stress Perspective." Group & Organization Management.
[37] Guo, P. (2024). "Digital Infrastructure and Firm Resilience: Evidence from China." Emerging Markets Finance and Trade.
[38] Dongri Han, Yue Zhu, Yanxia Diao, Min Liu and Ziyi Shi (2024). "The impact of new digital infrastructure construction on substantive green innovation." Managerial and Decision Economics, 45(6): 4072-4083.
[39] Li, C., M. Wen, S. Jiang and H. Wang (2024). "Assessing the effect of urban digital infrastructure on green innovation: mechanism identification and spatial-temporal characteristics." Humanities & Social Sciences Communications, 11(1). Article ID:320.
[40] Dong, H., M. Tao, J. Wang and G. Baiocchi (2024). "How broadband infrastructure development impacts green innovation? A corporate financialization mediated perspective." Sustainable Development.
[41] Jin, H., Z. Hong and I. Muhammad (2023). "How does digital infrastructure construction affect low-carbon development? A multidimensional interpretation of evidence from China." Journal of Cleaner Production, 396.
[42] Wang, D., Y. Luo, S. Hu and Q. Yang (2022). "Executives' ESG cognition and enterprise green innovation: Evidence based on executives' personal microblogs." Frontiers in Psychology, 13. Article ID:1053105.
[43] Wen, C., Z. Yufeng and W. Chenyu (2022). "Executives' overseas background and corporate green innovation." Corporate Social Responsibility and Environmental Management, 30(1): 165-179.
[44] Zhao, S., Y. Guan, H. Zhou and F. Hu (2024). "Making digital technology innovation happen: The role of the CEO's information technology backgrounds." Economic Modelling, 140. Article ID:106866.
[45] Wei, W., L. Zhang and J. Zhang (2024). "Executive team's digital background, financial flexibility and corporate innovation: Evidence from China." Finance Research Letters, 68: Article ID:106007.
[46] Zhu, C., N. Li, J. Ma and X. Qi (2024). "CEOs' digital technology backgrounds and enterprise digital transformation: The mediating effect of R&D investment and corporate social responsibility." Corporate Social Responsibility and Environmental Management, 31(3): 2557-2573.
[47] Ying, Q. and Y. Chen (2023). "Impacts of executive cognition on product innovation in the new digital context." Science Research Management, 44(3): 167-178.
[48] Hahm, Y., Y. J. Kim (2011). "A Co-word Analysis for Developing a Digital Finance Research Framework." The Journal of Internet Electronic Commerce Research, 11(1): 83-99.
[49] Rojas-Segura, J., M. Faith-Vargas and J. Martinez-Villavicencio (2023). "Conceptualizing digital transformation using semantic decomposition." Tec Empresarial, 17(3): 63-75.
[50] Verdecchia, R., P. Lago and C. de Vries (2022). "The future of sustainable digital infrastructures: A landscape of solutions, adoption factors, impediments, open problems, and scenarios." Sustainable Computing-Informatics & Systems, 35.
[51] Thomann, E. and M. Maggetti (2020). "Designing Research With Qualitative Comparative Analysis (QCA): Approaches, Challenges, and Tools." Sociological Methods & Research, 49(2): 356-386.
[52] Loo, M. K., S. Ramachandran and R. N. R. Yusof (2024). "Systematic Review of Factors and Barriers Influencing E-Commerce Adoption among SMEs over the Last Decade: A TOE Framework Perspective." Journal of the Knowledge Economy.
[53] Tang, Y. and B. Geng (2024). "Digital finance development level and corporate debt financing cost." Finance Research Letters, 60. Article ID:104825.
[54] Tang, D., W. Chen, Q. Zhang and J. Zhang (2023). "Impact of Digital Finance on Green Technology Innovation: The Mediating Effect of Financial Constraints." Sustainability, 15(4). Article ID:3393.
[55] Gou, Q., X. Li and G. Zhao (2024). "Surges of cross border capital flow: The impact of digital finance." Pacific-Basin Finance Journal, 84. Article ID:102305.
[56] Ai, H., L. Xiang, X. Tan, H. Yao and L. Han (2024). "The effects of place-based information technology policy on digital finance development: Evidence from China." Economic Analysis and Policy, 84: 521-544.
[57] Song, J., H. Zhou, Y. Gao and Y. Guan (2022). "Digital Inclusive Finance, Human Capital and Inclusive Green Development-Evidence from China." Sustainability, 14(16). Article ID:9922.
[58] Rupeika-Apoga, R. and K. Petrovska (2022). "Barriers to Sustainable Digital Transformation in Micro-, Small-, and Medium-Sized Enterprises." Sustainability, 14(20). Article ID:13558.