University of Michigan Develops Innovative Artificial Photosynthesis System for Sustainable Ethylene Production
Researchers at the University of Michigan have developed a groundbreaking artificial photosynthesis system that efficiently converts carbon dioxide into ethylene, a key hydrocarbon used in plastics. This innovative approach significantly reduces CO2 emissions compared to traditional methods, paving the way for sustainable fuel alternatives and addressing climate change. The system’s efficiency is five to six times greater than conventional solar energy methods, representing a major leap in sustainable energy solutions.
Researchers Develop Energy-Efficient Strategy for Ethylene Synthesis via CO2 Reduction
Researchers at Université Montpellier and other institutes have developed a new strategy to facilitate the energy-efficient synthesis of ethylene via the reduction of carbon dioxide. Their approach involves functionalizing copper catalysts for CO2 reduction using aryl diazonium salts, aiming to address the modest selectivity for ethylene and improve energy efficiency. This breakthrough is expected to have significant implications for the energy industry and environmental sustainability.
Study Raises Concerns Over Using Decommissioned Gas Field in Scotland for Hydrogen Storage
The potential for using a decommissioned gas field in Scotland as a major hydrogen store has been brought into question by a recent study conducted by the University of Aberdeen and the UK Onshore Geophysical Library (UKOGL). The study, led…