CERN Accelerating science

CERN Document Server 12 ჩანაწერია ნაპოვნი  1 - 10შემდეგი  ჩანაწერთან გადასვლა: ძიებას დასჭირდა 0.51 წამი. 
1.
An intercomparison study of four different techniques for measuring the chemical composition of nanoparticles / Caudillo, Lucía (Frankfurt U., FIAS ; Frankfurt U.) ; Surdu, Mihnea (PSI, Villigen) ; Lopez, Brandon (Carnegie Mellon U.) ; Wang, Mingyi (Carnegie Mellon U. ; Caltech) ; Thoma, Markus (Frankfurt U., FIAS ; Frankfurt U.) ; Bräkling, Steffen (LLNL, Livermore) ; Buchholz, Angela (Aalto U.) ; Simon, Mario (Frankfurt U., FIAS ; Frankfurt U.) ; Wagner, Andrea C (Frankfurt U., FIAS ; Frankfurt U.) ; Müller, Tatjana (Frankfurt U., FIAS ; Frankfurt U. ; Mainz, Max Planck Inst.) et al.
Currently, the complete chemical characterization of nanoparticles (< 100 nm) represents an analytical challenge, since these particles are abundant in number but have negligible mass. Several methods for particle-phase characterization have been recently developed to better detect and infer more accurately the sources and fates of sub-100 nm particles, but a detailed comparison of different approaches is missing. Here we report on the chemical composition of secondary organic aerosol (SOA) nanoparticles from experimental studies of α-pinene ozonolysis at −50, −30, and −10 ∘C and intercompare the results measured by different techniques. [...]
2023 - 19 p. - Published in : Atmos. Chem. Phys. 23 (2023) 6613-6631 Fulltext: PDF;
2.
Iodine oxoacids enhance nucleation of sulfuric acid particles in the atmosphere / He, Xu-Cheng (Helsinki U. ; Carnegie Mellon U. ; Helsinki Inst. of Phys.) ; Simon, Mario (Frankfurt U., FIAS ; Frankfurt U.) ; Iyer, Siddharth (Tampere U. of Tech.) ; Xie, Hong-Bin (Shanghai Jiao Tong U.) ; Rörup, Birte (Helsinki U.) ; Shen, Jiali (Helsinki U.) ; Finkenzeller, Henning (Colorado U. ; Colorado U., CIRES) ; Stolzenburg, Dominik (Helsinki U. ; Vienna U.) ; Zhang, Rongjie (Shanghai Jiao Tong U.) ; Baccarini, Andrea (PSI, Villigen ; Ecole Polytechnique, Lausanne) et al.
The main nucleating vapor in the atmosphere is thought to be sulfuric acid (H2SO4), stabilized by ammonia (NH3). However, in marine and polar regions, NH3 is generally low, and H2SO4 is frequently found together with iodine oxoacids [HIOx, i.e., iodic acid (HIO3) and iodous acid (HIO2)]. [...]
2023 - 7 p. - Published in : Science 382 (2023) adh2526 Manuscript: PDF;
3.
The gas-phase formation mechanism of iodic acid as an atmospheric aerosol source / Finkenzeller, Henning (Colorado U. ; Colorado U., CIRES) ; Iyer, Siddharth (Tampere U. of Tech.) ; He, Xu-Cheng (Helsinki U.) ; Simon, Mario (Goethe U., Frankfurt (main)) ; Koenig, Theodore K (Colorado U. ; Colorado U., CIRES ; Peking U., Beijing) ; Lee, Christopher F (Colorado U. ; Colorado U., CIRES) ; Valiev, Rashid (Helsinki U.) ; Hofbauer, Victoria (Carnegie Mellon U.) ; Amorim, Antonio (Lisbon U.) ; Baalbaki, Rima (Helsinki U.) et al.
AbstractIodine is a reactive trace element in atmospheric chemistry that destroys ozone and nucleates particles. Iodine emissions have tripled since 1950 and are projected to keep increasing with rising O3 surface concentrations. [...]
2022 - 7 p. - Published in : Nature Chem. 15 (2022) 129-135 Fulltext: PDF;
4.
High Gas-Phase Methanesulfonic Acid Production in the OH-Initiated Oxidation of Dimethyl Sulfide at Low Temperatures / Shen, Jiali ; Scholz, Wiebke ; He, Xu-Cheng ; Zhou, Putian ; Marie, Guillaume ; Wang, Mingyi ; Marten, Ruby ; Surdu, Mihnea ; Rörup, Birte ; Baalbaki, Rima et al.
Dimethyl sulfide (DMS) influences climate via cloud condensation nuclei (CCN) formation resulting from its oxidation products (mainly methanesulfonic acid, MSA, and sulfuric acid, H2SO4). Despite their importance, accurate prediction of MSA and H2SO4 from DMS oxidation remains challenging. [...]
2022 - 14 p. - Published in : Environ. Sci. Technol. 56 (2022) 13931-13944 Fulltext: PDF;
5.
Survival of newly formed particles in haze conditions / Marten, Ruby (PSI, Villigen) ; Xiao, Mao (PSI, Villigen) ; Rorup, Birte (Helsinki U.) ; Wang, Mingyi (Carnegie Mellon U.) ; Kong, Weimeng (Caltech) ; He, Xu-Cheng (Helsinki U.) ; Stolzenburg, Dominik (Helsinki U.) ; Pfeifer, Joschka (CERN ; Frankfurt U., FIAS ; Frankfurt U.) ; Marie, Guillaume (Frankfurt U., FIAS ; Frankfurt U.) ; Wang, Dongyu S (PSI, Villigen) et al.
Intense new particle formation events are regularly observed under highly polluted conditions, despite the high loss rates of nucleated clusters. Higher than expected cluster survival probability implies either ineffective scavenging by pre-existing particles or missing growth mechanisms. [...]
2022 - 9 p. - Published in : Environmental Science: Atmospheres 2 (2022) 491-499 Fulltext: PDF;
6.
Determination of the collision rate coefficient between charged iodic acid clusters and iodic acid using the appearance time method / He, Xu-Cheng (U. Helsinki (main)) ; Iyer, Siddharth (U. Helsinki (main)) ; Sipilä, Mikko (U. Helsinki (main)) ; Ylisirniö, Arttu (UEF, Kuopio) ; Peltola, Maija (Helsinki U.) ; Kontkanen, Jenni (Helsinki U.) ; Baalbaki, Rima (Helsinki U.) ; Simon, Mario (Goethe U., Frankfurt (main)) ; Kürten, Andreas (Goethe U., Frankfurt (main)) ; Tham, Yee Jun (Helsinki U.) et al.
Ions enhance the formation rate of atmospheric aerosol particles, which play an important role in Earth’s radiative balance. Ion-induced nucleation involves the stepwise accretion of neutral monomers onto a molecular cluster containing an ion, which helps to stabilize the cluster against evaporation. [...]
2020 - 12 p. - Published in : Aerosol Sci. Technol. 55 (2020) 231-242 Fulltext: PDF;
7.
The driving factors of new particle formation and growth in the polluted boundary layer / Xiao, Mao ; Hoyle, Christopher R ; Dada, Lubna ; Stolzenburg, Dominik ; Kürten, Andreas ; Wang, Mingyi ; Lamkaddam, Houssni ; Garmash, Olga ; Mentler, Bernhard ; Molteni, Ugo et al.
New particle formation (NPF) is a significant source of atmospheric particles, affecting climate and air quality. Understanding the mechanisms involved in urban aerosols is important to develop effective mitigation strategies. [...]
2021 - 17 p. - Published in : Atmos. Chem. Phys. 21 (2021) 14275-14291 Fulltext: PDF; Supplement: PDF;
8.
Enhanced growth rate of atmospheric particles from sulfuric acid / Stolzenburg, Dominik (Vienna U. ; Helsinki U.) ; Simon, Mario (Frankfurt U.) ; Ranjithkumar, Ananth (Leeds U.) ; Kürten, Andreas (Frankfurt U.) ; Lehtipalo, Katrianne (Helsinki U. ; Finnish Meteorological Inst.) ; Gordon, Hamish (Leeds U.) ; Ehrhart, Sebastian (Mainz, Max Planck Inst.) ; Finkenzeller, Henning (U. Colorado, Boulder) ; Pichelstorfer, Lukas (Helsinki U.) ; Nieminen, Tuomo (Helsinki U.) et al.
In the present-day atmosphere, sulfuric acid is the most important vapour for aerosol particle formation and initial growth. However, the growth rates of nanoparticles ( < 10 nm) from sulfuric acid remain poorly measured. [...]
2020 - 14 p. - Published in : Atmos. Chem. Phys. 20 (2020) 7359-7372
9.
Molecular understanding of new-particle formation from $\alpha$-pinene between −50 and +25 °C / Simon, Mario (Frankfurt U.) ; Dada, Lubna (Helsinki U.) ; Heinritzi, Martin (Frankfurt U.) ; Scholz, Wiebke (Innsbruck U.) ; Stolzenburg, Dominik (Vienna U.) ; Fischer, Lukas (Innsbruck U.) ; Wagner, Andrea C (Frankfurt U. ; U. Colorado, Boulder) ; Kürten, Andreas (Frankfurt U.) ; Rörup, Birte (Helsinki U.) ; He, Xu-Cheng (Helsinki U.) et al.
Highly oxygenated organic molecules (HOMs) contribute substantially to the formation and growth of atmospheric aerosol particles, which affect air quality, human health and Earth’s climate. HOMs are formed by rapid, gasphase autoxidation of volatile organic compounds (VOCs) such as α-pinene, the most abundant monoterpene in the atmosphere. [...]
2020 - 25 p. - Published in : Atmos. Chem. Phys. 20 (2020) 9183-9207
10.
Molecular Composition and Volatility of Nucleated Particles from $\alpha$-Pinene Oxidation between −50 °C and +25 °C / Ye, Qing (Carnegie Mellon U. (main)) ; Wang, Mingyi (Carnegie Mellon U. (main)) ; Hofbauer, Victoria (Carnegie Mellon U. (main)) ; Stolzenburg, Dominik (Vienna U.) ; Chen, Dexian (Carnegie Mellon U. (main)) ; Schervish, Meredith (Carnegie Mellon U. (main)) ; Vogel, Alexander (CERN ; Goethe U., Frankfurt (main)) ; Mauldin, Roy L (Carnegie Mellon U. (main) ; U. Colorado, Boulder) ; Baalbaki, Rima (U. Helsinki (main)) ; Brilke, Sophia (Vienna U.) et al.
We use a real-time temperature-programmed desorption chemical-ionization mass spectrometer (FIGAERO–CIMS) to measure particle-phase composition and volatility of nucleated particles, studying pure α-pinene oxidation over a wide temperature range (−50 °C to +25 °C) in the CLOUD chamber at CERN. Highly oxygenated organic molecules are much more abundant in particles formed at higher temperatures, shifting the compounds toward higher O/C and lower intrinsic (300 K) volatility. [...]
2019 - 9 p. - Published in : Environmental Science & Technology 53 (2019) 12357-12365

CERN Document Server : 12 ჩანაწერია ნაპოვნი   1 - 10შემდეგი  ჩანაწერთან გადასვლა:
ასევე იხილეთ: მსგავსი ავტორის სახელები
27 WANG, Yifang
802 Wang, Y
4 Wang, Y -B
3 Wang, Y -F
1 Wang, Y -G
3 Wang, Y -H
1 Wang, Y -K
10 Wang, Y -M
1 Wang, Y -N
3 Wang, Y -P
8 Wang, Y B
7 Wang, Y C
115 Wang, Y D
335 Wang, Y F
25 Wang, Y G
24 Wang, Y H
43 Wang, Y J
3 Wang, Y K
30 Wang, Y L
31 Wang, Y M
5 Wang, Y N
2 Wang, Y O
11 Wang, Y P
127 Wang, Y Q
53 Wang, Y R
15 Wang, Y S
1 Wang, Y Samuel
3 Wang, Y T
2 Wang, Y W
57 Wang, Y X
26 Wang, Y Y
7 Wang, Y Z
30 Wang, Y l
1 Wang, Y-T
238 Wang, Y.
9 Wang, Y.D.
18 Wang, Y.F.
1 Wang, Y.G.
1 Wang, Y.H.
1 Wang, Y.M.
1 Wang, Y.P.
9 Wang, Y.Q.
1 Wang, Y.S.
1 Wang, Y.Z.
6 Wang, Ya
1 Wang, Ya-Guang
1 Wang, Ya-Nan
4 Wang, Ya-Ping
1 Wang, Ya-Shu
2 Wang, Ya-Zhou
1 Wang, Yacan
2 Wang, Yadi
1 Wang, Yadong
1 Wang, Yafeng
2 Wang, Yajuan
5 Wang, Yajun
1 Wang, Yalin
1 Wang, Yamin
2 Wang, Yaming
60 Wang, Yan
2 Wang, Yan-Feng
2 Wang, Yan-Yan
2 Wang, Yan-Yu
2 Wang, Yan-feng
2 Wang, Yan-ping
1 Wang, YanLan
3 Wang, YanYu
5 Wang, Yanan
1 Wang, Yanchao
591 Wang, Yanchu
2 Wang, Yanfei
1 Wang, Yanfen
38 Wang, Yang
1 Wang, Yang O
1 Wang, Yang Ocean
1 Wang, Yangfu
1 Wang, Yangsen Yao Q Daniel
3 Wang, Yangyang
2 Wang, Yanhua
3 Wang, Yaning
8 Wang, Yanjin
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3 Wang, Yanli
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7 Wang, Yao
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1 Wang, Yaoyao
48 Wang, Yaping
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13 Wang, Ye
3 Wang, Ye-Kai
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587 Wang, Yi
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3 Wang, Yi-Fei
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1 Wang, Yi-Li
1 Wang, Yi-Min
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14 Wang, Yi-Nan
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2 Wang, Yi-Ping
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1 Wang, Yi-Xiang
14 Wang, Yi-nan
1 Wang, Yi-zhen
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1 Wang, Yibing
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2 Wang, Yidan
1 Wang, Yidi
17 Wang, Yifan
27 Wang, Yifang
99 Wang, Yifei
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4 Wang, Yihong
2 Wang, Yihua
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1 Wang, Yijia
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2 Wang, Yikun
5 Wang, Yili
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360 Wang, Yilong
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2 Wang, Yiman
8 Wang, Yimin
1 Wang, Yiming
4 Wang, Yin
1 Wang, Yinan
21 Wang, Ying
1 Wang, Ying Ping
3 Wang, Ying-Bin
8 Wang, Ying-Dan
7 Wang, Ying-Hai
3 Wang, Ying-bin
13 Wang, Yinghao
4 Wang, Yinghui
3 Wang, Yinglin
1 Wang, Yinglong
2 Wang, Yingxu
1 Wang, Yingying
70 Wang, Yinmiao
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1 Wang, Yintao
4 Wang, Yiping
1 Wang, Yiqian
1 Wang, Yiqiao
2 Wang, Yiqiu
2 Wang, Yiran
1 Wang, Yishan
2 Wang, Yisong
1 Wang, Yiting
5 Wang, Yiwei
5 Wang, Yiwen
3 Wang, Yixin
1 Wang, Yixiong
3 Wang, Yixu
1 Wang, Yixuan
9 Wang, Yizao
33 Wang, Yong
1 Wang, Yong-Feng
1 Wang, Yong-Gang
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6 Wang, Yong-Long
26 Wang, Yong-Qiang
1 Wang, Yong-Rui
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2 Wang, Yong-Zhi
6 Wang, Yong-long
1 Wang, Yongchao
4 Wang, Yongduo
2 Wang, Yonggang
1 Wang, Yonghui
2 Wang, Yongji
16 Wang, Yongjia
4 Wang, Yongjin
10 Wang, Yongjiu
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1 Wang, Yongliang
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6 Wang, Yongqiang
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1 Wang, Yongrui
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1 Wang, Yongtian
3 Wang, You
1 Wang, You kai
1 Wang, You-Fen
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1 Wang, You-Gui
12 Wang, You-Kai
3 Wang, You-Nian
1 Wang, You-bao
1 Wang, You-gang
12 Wang, You-kai
3 Wang, You-nian
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47 Wang, Yu
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1 Wang, Yu-Hsiang
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34 Wang, Yu-Ming
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9 Wang, Yu-Tong
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3 Wang, Yu-Zhu
34 Wang, Yu-ming
3 Wang, Yu-zhu
26 Wang, YuPeng
22 Wang, Yuan
1 Wang, Yuan-Lin
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1 Wang, Yuan-Zhe
6 Wang, Yuan-Zhu
1 Wang, Yuan-qin
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1 Wang, Yuanzhang
113 Wang, Yuanzhe
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77 Wang, Yubiao
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1 Wang, Yuchen
1 Wang, Yudong
36 Wang, Yue
8 Wang, Yue-Fei
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622 Wang, Yufeng
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332 Wang, Yuhao
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18 Wang, Yujun
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53 Wang, Yuming
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40 Wang, Yuting
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3 Wang, Yuxuan
1 Wang, Yuxun
2 Wang, Yuyang
1 Wang, Yuye
1 Wang, Yuyu
1 Wang, Yuyue
8 Wang, Yuzhao
7 Wang, Yuzhu
16 wang, Yongjia
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