Carbon dioxide

Engineered living photosynthetic biocomposites for intensified biological carbon capture

Carbon capture and storage is required to meet Paris Agreement targets. Photosynthesis is nature’s carbon capture technology. Drawing …

Pichaya In-Na, Elliot B. Sharp, Gary S. Caldwell, Matthew G. Unthank, Justin J. Perry, Jonathan G. M. Lee

Living textile biocomposites deliver enhanced carbon dioxide capture

Over 110 million tonnes of textile fibres and apparel are produced annually, ultimately ending with significant quantities of waste …

Pichaya In-Na, Jonathan Lee, Gary Caldwell

Photosynthetic textile biocomposites: Using laboratory testing and digital fabrication to develop flexible living building materials

Urban development and the construction industry account for a considerable proportion of global carbon dioxide (CO2) emissions. …

Assia Stefanova, Pichaya In-Na, Gary Stephen Caldwell, Ben Bridgens, Rachel Armstrong

Architectural Laboratory Practice for the Development of Clay and Ceramic-Based Photosynthetic Biocomposites

This study outlines the development of clay and ceramic-based living biocomposite materials under minimal moisture environments. The …

Assia Stefanova, Ben Bridgens, Pichaya In-Na, Gary Caldwell, Rachel Armstrong

Loofah-based microalgae and cyanobacteria biocomposites for intensifying carbon dioxide capture

Microalgae and cyanobacteria have been evaluated for biological CO2 capture from flue gases for over 40 years; however, commercial open …

Pichaya In-Na, Abbas A. Umar, Adam D. Wallace, Michael C. Flickinger, Gary S. Caldwell, Jonathan G.M. Lee

Algae biocomposites for carbon capture and storage

Microalgae technology has been used to capture CO2 from flue gases, but the current commercial algae open pond systems have many …

Pichaya In-Na, Abbas A. Umar, Adam D. Wallace, Michael C. Flickinger, Gary S. Caldwell, Jonathan G.M. Lee