Lubna Dada

Aug 8, 2024 | nature.com | Kaspar R. Daellenbach |Jing Cai |Simo Hakala |Lubna Dada |Wei Du |Lei Yao | +8 more

AbstractHaze in Beijing is linked to atmospherically formed secondary organic aerosol, which has been shown to be particularly harmful to human health. However, the sources and formation pathways of these secondary aerosols remain largely unknown, hindering effective pollution mitigation. Here we have quantified the sources of organic aerosol via direct near-molecular observations in central Beijing.

Aug 8, 2024 | nature.com | Kaspar R. Daellenbach |Jing Cai |Simo Hakala |Lubna Dada |Wei Du |Lei Yao | +8 more

AbstractHaze in Beijing is linked to atmospherically formed secondary organic aerosol, which has been shown to be particularly harmful to human health. However, the sources and formation pathways of these secondary aerosols remain largely unknown, hindering effective pollution mitigation. Here we have quantified the sources of organic aerosol via direct near-molecular observations in central Beijing.

Jul 10, 2024 | communities.springernature.com | Lubna Dada |Kaspar R. Daellenbach

Severe pollution meets high populationAir pollution is responsible for several million deaths worldwide every year. The most critical regions are those where high pollution meets a high population. Beijing, a megacity known for its notorious haze, continues to grapple with severe air pollution despite rigorous mitigation strategies. With over 22 million people living in Beijing, it is a location of critical importance for studying and mitigating air pollution.