![]() ![]() V., Lambert, S., Lannoo, B., Colle, D., Pickavet, M., & Demeester, P. Frontiers in Ecology and the Environment, 11(3), 156–162. New evidence on measuring financial constraints: Moving beyond the KZ index. The International Journal of Management Education, 18(1), 100330. Artificial intelligence and sustainable development. Process Safety and Environmental Protection, 117, 372–382. Making the links among environmental protection, process safety, and industry 4.0. Can big data improve firm decision quality? The role of data quality and data diagnosticity. Journal of Economic Literature, 52(3), 740–798. What do we learn from the weather? The new climate-economy literature. Proceedings of the National Academy of Sciences, 118(52), e2109912118. ![]() The effectiveness of China’s regional carbon market pilots in reducing firm emissions. Journal of Environmental Economics and Management, 88, 468–485. The consequences of spatially differentiated water pollution regulation in China. Journal of Comparative Economics, 46(4), 889–905. The impact of temperature on manufacturing worker productivity: Evidence from personnel data. A dynamic model for digital advertising: The effects of creative format, message content, and targeting on engagement. Good for the environment, good for business: Foreign acquisitions and energy intensity. Modern management: Good for the environment or just hot air? Economic Journal, 120(544), 551–572. Report to the OECD, Brighton, 21.īloom, N., Genakos, C., Martin, R., & Sadun, R. Impacts of information and communication technologies on environmental sustainability: Speculations and evidence. Tenth Mediterranean Conference on Information Systems 2016 Proceedings. īerghaus, Sabine and Back, Andrea, Stages in Digital Business Transformation: Results of an Empirical Maturity Study. (2023) Changing the channel: Digitization and the rise of “middle tail” strategies. More Sustainability in Industry through Industrial Internet of Things? Applied Sciences-Basel. Internet entrepreneurship: Social capital, human capital, and performance of Internet ventures in China. Information and communications technology as a general-purpose technology: Evidence from US industry data. International Journal of Production Economics, 188, 86–104. Improving green flexibility through advanced manufacturing technology investment: Modeling the decision process. On global electricity usage of communication technology: trends to 2030. The influence of economic growth, urbanization, trade openness, financial development, and renewable energy on pollution in Europe. Computers & Industrial Engineering, 101, 528–543. Big data applications in operations/supply-chain management: A literature review. Identification properties of recent production function estimators. Finally, using expenditures related to digital transformation, we find that digital transformation imposes a cost burden and validate that using annual report information to measure corporate digitalization has veracity.Īckerberg, D. Mechanistic studies show that the direct effect of digital transformation increases firms’ electricity consumption and electricity intensity, thus increasing carbon emissions and carbon intensity the indirect effect reduces carbon emissions and carbon intensity by increasing firms’ productivity, alleviating their financing constraints, saving energy consumption, and reducing energy intensity. Digitalization has a greater impact on firms in high-carbon emitting industries and on non-state-owned enterprises. After replacing emissions and digitization measures, excluding confounding policy and potential omitted variables, the conclusions still hold. To address the endogeneity, we employ propensity score matching method and “Broadband China” as a quasi-natural experiment. In this paper, we explore the impact of digital transformation on corporate carbon performance using data from the pollution emissions and taxation survey data of Chinese listed companies from 2009–2015 and find that digital transformation can significantly reduce carbon emissions by 8% and carbon intensity by 10%. The relationship between digital transformation and carbon emissions at the firm level remains unclear. ![]()
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