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Sandeep, M. S., & Ravishankar, M. N. (2018). Sociocultural transitions and developmental impacts in the digital economy of impact sourcing. Information Systems Journal, 28(3).Search in Google Scholar
Luís Bandeira, & Pedregal, P. (2017). Digital economy and the future of social security. Dubai Medical Journal, 65(4), 21-30.Search in Google Scholar
Li, G., Zhou, X., & Bao, Z. (2022). A win–win opportunity: the industrial pollution reduction effect of digital economy development—a quasi-natural experiment based on the “broadband china” strategy. Sustainability, 14.Search in Google Scholar
Neeraj, R. (2019). Trade rules for the digital economy: charting new waters at the wto. World Trade Review, 1-21.Search in Google Scholar
Shen, W., Xia, W., & Li, S. (2022). Dynamic coupling trajectory and spatial-temporal characteristics of high-quality economic development and the digital economy. Sustainability, 14.Search in Google Scholar
Su, Y., Guo, W., & Yang, Z. (2021). Reverse knowledge transfer in cross-border mergers and acquisitions in the chinese high-tech industry under government intervention. Complexity, 2021(4), 1-18.Search in Google Scholar
Feng, B., Sun, K., Chen, M., & Gao, T. (2020). The impact of core technological capabilities of high-tech industry on sustainable competitive advantage. Sustainability, 12.Search in Google Scholar
Kjrstad, M., Falk, K., & Muller, G. (2020). Exploring a co-creative problem solving toolbox in the context of norwegian high-tech industry. IEEE Systems Journal, PP(99).Search in Google Scholar
Song, X., & Ding, Y. (2019). Methods for technical innovation efficiency evaluation of high-tech industry with picture fuzzy set. Journal of Intelligent and Fuzzy Systems, 37(2), 1-9.Search in Google Scholar
Fang, G., Zhou, Q., Wu, J., & Qi, X. (2019). The relationship between network capabilities and innovation performance: evidence from chinese high-tech industry. Industrial management & data systems, 119(8), 1638-1654.Search in Google Scholar
Max, N., Emma, V., & Georgina, V. (2018). Spatial imaginaries and tech cities: place-branding east london’s digital economy. Journal of Economic Geography.Search in Google Scholar
Wang, X., Sun, X., Zhang, H., & Xue, C. (2022). Digital economy development and urban green innovation ca-pability: based on panel data of 274 prefecture-level cities in china. Sustainability, 14.Search in Google Scholar
Li, Z., Li, N., & Wen, H. (2021). Digital economy and environmental quality: evidence from 217 cities in china. Sustainability, 13.Search in Google Scholar
Bertani, F., Ponta, L., Raberto, M., Teglio, A., & Cincotti, S. (2020). The complexity of the intangible digital economy: an agent-based model. Journal of Business Research.Search in Google Scholar
Guo, Y., & Zheng, G. (2021). Recombinant capabilities, r&d collaboration, and innovation performance of emerging market firms in high-technology industry. IEEE Transactions on Engineering Management, PP(99), 1-16.Search in Google Scholar
Yu, L., Duan, Y., & Fan, T. (2020). Innovation performance of new products in china’s high-technology industry. International journal of production economics, 219(Jan.), 204-215.Search in Google Scholar
Nathalie, S., Nina, P., Jens, L., & Stefanie, B. (2018). A new framework to assess industry convergence in high technology environments. Technovation, 84-85, S0166497217300238-.Search in Google Scholar
Meijer, M. S., Van Jaarsveld, W., De Kok, T., & Tang, C. S. (2022). Direct versus indirect penalties for supply contracts in high-tech industry. European Journal of Operational Research, 301.Search in Google Scholar