摘要
1.Introduction and context Enormous emphasis is currently being paid to the decarbonization of the global built environment as a leading priority for the engineering community and related industrial sectors[1].One of the main contributors to the overall emissions footprint of the built environment-and thus a cornerstone of efforts to achieve decarbonization-is the emissions profile of construction materials during their production and utilization.The cement and concrete sector is the largest-volume contributor to the emissions incurred in meeting the world’s construction material needs and is therefore targeted in the discussion of the deep,rapid decarbonization that must be achieved in order to minimize irreversible damage to the Earth and its ecosystems.
基金
funded by the Engineering and Physical Sciences Research Council(EPSRC),UK(EP/S019650/1)
funded by EPSRC via an Early Career Fellowship grant(EP/R001642/1)
the Transforming Foundation Industries:Network+Towards Value by Innovation(EP/V026402/1)
funded by the National Nature Science Foundation of China(U2001225)
Fundamental Research Funds for the Central Universities(22120230174 at Tongji University),and Geopoly Fundamental Genomic Research project.
