Tianqu Cui
Overview
Explore the profile of Tianqu Cui including associated specialties, affiliations and a list of published articles.
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Articles
23
Citations
148
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Recent Articles
1.
De Haan D, Hawkins L, Pennington E, Welsh H, Rodriguez A, Symons M, et al.
ACS Earth Space Chem
. 2024 Dec;
8(12):2574-2586.
PMID: 39720219
Hydroxyacetone (HA) is an atmospheric oxidation product of isoprene and other organic precursors that can form brown carbon (BrC). Measured bulk aqueous-phase reaction rates of HA with ammonium sulfate, methylamine,...
2.
Cui T, Manousakas M, Wang Q, Uzu G, Hao Y, Khare P, et al.
ACS EST Air
. 2024 Sep;
1(9):1053-1065.
PMID: 39295737
Over 300 daily PM filter samples were collected in two western Chinese megacities, Xi'an and Chongqing, from October 2019 to May 2020. Their aqueous extracts were nebulized simultaneously to an...
3.
Wang T, Li K, Bell D, Zhang J, Cui T, Surdu M, et al.
NPJ Clim Atmos Sci
. 2024 Jun;
7(1):149.
PMID: 38938472
Organic compounds released from wildfires and residential biomass burning play a crucial role in shaping the composition of the atmosphere. The solubility and subsequent reactions of these compounds in the...
4.
Bhattu D, Tripathi S, Bhowmik H, Moschos V, Lee C, Rauber M, et al.
Nat Commun
. 2024 Apr;
15(1):3517.
PMID: 38664406
The oxidative potential (OP) of particulate matter (PM) is a major driver of PM-associated health effects. In India, the emission sources defining PM-OP, and their local/regional nature, are yet to...
5.
Cheung R, Qi L, Manousakas M, Puthussery J, Zheng Y, Koenig T, et al.
Sci Total Environ
. 2024 Apr;
928:172345.
PMID: 38621537
Fine particulate matter (PM) causes millions of premature deaths each year worldwide. Oxidative potential (OP) has been proposed as a better metric for aerosol health effects than PM mass concentration...
6.
Li K, Zhang J, Bell D, Wang T, Lamkaddam H, Cui T, et al.
Natl Sci Rev
. 2024 Feb;
11(3):nwae014.
PMID: 38390366
Organic vapors from biomass burning are a major source of secondary organic aerosols (SOAs). Previous smog chamber studies found that the SOA contributors in biomass-burning emissions are mainly volatile organic...
7.
De Haan D, Hawkins L, Wickremasinghe P, Andretta A, Dignum J, De Haan A, et al.
ACS Earth Space Chem
. 2023 Jun;
7(6):1268.
PMID: 37342760
[This corrects the article DOI: 10.1021/acsearthspacechem.3c00035.].
8.
De Haan D, Hawkins L, Wickremasinghe P, Andretta A, Dignum J, De Haan A, et al.
ACS Earth Space Chem
. 2023 May;
7(5):1131-1140.
PMID: 37223425
Aqueous-phase dark reactions during the co-oxidation of glyoxal and S(IV) were recently identified as a potential source of brown carbon (BrC). Here, we explore the effects of sunlight and oxidants...
9.
Armstrong N, Chen Y, Cui T, Zhang Y, Christensen C, Zhang Z, et al.
Environ Sci Technol
. 2022 Nov;
56(23):16611-16620.
PMID: 36378716
Acid-driven multiphase chemistry of isoprene epoxydiols (IEPOX) with inorganic sulfate aerosols contributes substantially to secondary organic aerosol (SOA) formation, which constitutes a large mass fraction of atmospheric fine particulate matter...
10.
Casotto R, Skiba A, Rauber M, Strahl J, Tobler A, Bhattu D, et al.
Sci Total Environ
. 2022 Sep;
855:158655.
PMID: 36089024
No abstract available.