Constructed wetland coupled microbial fuel cells (CW-MFC) have gained considerable attention as an innovative sustainable technology for simultaneous wastewater treatment and bio-electricity generation since its inception in 2012. This study, which employed bibliometrics of research articles and patent analysis, is a comprehensive investigation into the evolutionary trend and development status of CW-MFC. We analyzed 85 patents and 247 research articles using structured and unstructured data. By using the logistic model and econometric analysis, we predicted the technological life cycle and investigated the factors driving the development of CW-MFC. In addition, this study discusses the innovative hotspots, research and innovative trends, and key contributors at the forefront of this green infrastructure. The study results show that CW-MFC technology has gained greater interest under the influence of national and international policies, market demand, economic growth, and national R&D expenditure, highlighting its global impact. The study also showed that CW-MFC was predominantly distributed in Asia, with China at the forefront. The technology evolution path from both patents and papers showed the transition of research and development from the performance evaluation of CW-MFC with conventional-based technology to the current study focused on system optimization by exploring designs and component factors to enhance efficiency. Furthermore, the technological maturity (TMR) of CW-MFC was determined using the logistic model to be 50.5%, with significant potential for further development (R2=0.98). Overall, this study provides a comprehensive understanding of the current trends of CW-MFC development and provides forecasting and direction for future developments.
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