Core Insights - Chinese researchers have developed an "artificial marine carbon cycle system" that captures CO₂ from seawater and converts it into intermediates for biomanufacturing, addressing climate change and supporting the development of green low-carbon materials [1][2] Group 1: Research and Development - The research was conducted by a team from the University of Electronic Science and Technology of China and the Shenzhen Institute of Advanced Technology, with results published in the journal "Nature Catalysis" [1] - The system integrates "electrocatalysis + synthetic biology" to create a complete chain from "seawater carbon capture" to "material and molecular production," demonstrating a scalable platform for interdisciplinary collaboration [1][2] Group 2: Technical Achievements - The electrocatalysis team achieved over 70% CO₂ capture efficiency in natural seawater using a newly designed electrolytic device that operates continuously for over 500 hours [2] - The research team plans to establish integrated "green factories" in coastal areas to continuously capture CO₂ and convert it into formic acid, which will then be transformed into green plastic materials using engineered bacteria [2] Group 3: Economic and Environmental Impact - This research aligns with China's "dual carbon" goals and the development of a blue economy, providing a new pathway for utilizing marine carbon sinks and contributing to high-value utilization of marine carbon resources [1]