A5042434666- Carbon Dioxide Capture Technologies
- Aerogels and thermal insulation
- Methane Hydrates and Related Phenomena
- CO2 Sequestration and Geologic Interactions
- Marine Ecology and Invasive Species
- Marine Biology and Environmental Chemistry
- Marine Biology and Ecology Research
Université de Sherbrooke
2022-2023
Nantes Université
2023
Current carbon capture and utilization (CCU) technologies require high energy input costly catalysts. Here, an effective pathway is offered that addresses climate action by atmospheric CO2 sequestration. Industrially relevant highly reactive alkali cellulose solutions are used as absorption media. The latter lead to mineralized materials (MCM) at a tailorable cellulose-to-mineral ratio, forming organic-inorganic viscous systems (viscosity from 102 107 mPa s storage modulus 10 105 Pa)....
Cellulose–CO2 Grapes In article number 2209327, Guillermo Reyes, Orlando J. Rojas, and co-workers demonstrate carbon capture utilization (CCU) in industrially relevant reactive alkali cellulose solutions, which are transformed into hybrid, mineralized materials. They can be molded supports for coral-reef restoration the production of structures to ceramics cement composites (Image: scanning electron microscopy (SEM) image a sample with ca. 7 nm Au/Pt coating, colored according...
Marine habitats are being targeted for the extraction of offshore renewable energy (ORE) as part drive to decarbonise electricity generation. Unmanaged biofouling impacts ORE devices and infrastructure by elevating drag forces, increasing weight, accelerating corrosion, leading decreased performance survivability, extending costly periods maintenance. deployments in high tidal flow locations providing opportunities study unique these habitats. In this study, surveys numerous associated...