祝贺刘汝帅等同学的文章被Chem. Res. Chinese Universities接受发表！

祝贺刘汝帅等同学的文章

“Recent Advances of Porous Solids for Ultradilute CO₂ Capture”

被 Chem. Res. Chinese Universities 接受发表！

Ru-Shuai Liu, Shuang Xu,  Guang-Ping Hao* and An-Hui Lu*. Recent Advances of Porous Solids for Ultradilute CO₂ Capture, Chem. Res. Chinese Universities, 2021. DOI:10.1007/s40242-021-1394-x. [DOWNLOAD]

Abstract

The urgency of dealing with global climate change caused by greenhouse gas(GHG) emissions is increasing as the carbon dioxide(CO₂) concentration in the atmosphere has reached a record high value of 416 ppm(parts per million). Technologies that remove CO₂ from the surrounding air (direct air capture, DAC) could result in negative carbon emissions, and thus attracts increasing attention. The steady technical progress in adsorption-based CO₂ separation greatly advanced the DAC, which largely relies on advanced sorbent materials. This review focuses on the latest development of porous solids for air capture; first discussed the main types of sorbents for air capture, which include porous carbons, zeolites, silica materials, and metal-organic frameworks (MOFs), particularly their modified counterparts. Then, we evaluated their performances, including uptake and selectivity under dry and humid CO₂ streams for practical DAC application. Finally, a brief outlook on remaining challenges and potential directions for future DAC development is given.