New particle formation from photooxidation of diiodomethane (CH2I2). Jimenez, J., L., Bahreini, R., Cocker, D., R., Zhuang, H., Varutbangkul, V., Flagan, R., C., Seinfeld, J., H., O'Dowd, C., D., & Hoffmann, T. Journal of Geophysical Research-Atmospheres, 108(D10):-, 2003. ![New particle formation from photooxidation of diiodomethane (CH2I2) [pdf]](https://bibbase.org/img/filetypes/pdf.svg "pdf")
Paper abstract bibtex [1] Photolysis of CH2I2 in the presence of O-3 has been proposed as a mechanism leading to intense new particle formation in coastal areas. We report here a comprehensive laboratory chamber study of this system. Rapid homogeneous nucleation was observed over three orders of magnitude in CH2I2 mixing ratio, down to a level of 15 ppt (similar to4 x 10(8) molec. cm(-3)) comparable to the directly measured total gas-phase iodine species concentrations in coastal areas. After the nucleation burst, the observed aerosol dynamics in the chamber was dominated by condensation of additional vapors onto existing particles and particle coagulation. Particles formed under dry conditions are fractal agglomerates with mass fractal dimension, D-f similar to 1.8 - 2.5. Higher relative humidity (65%) does not change the nucleation or growth behavior from that under dry conditions, but results in more compact and dense particles (D-f similar to 2.7). On the basis of the known gas-phase chemistry, OIO is the most likely gas-phase species to produce the observed nucleation and aerosol growth; however, the current understanding of this chemistry is very likely incomplete. Chemical analysis of the aerosol using an Aerodyne Aerosol Mass Spectrometer reveals that the particles are composed mainly of iodine oxides but also contain water and/or iodine oxyacids. The system studied here can produce nucleation events as intense as those observed in coastal areas. On the basis of comparison between the particle composition, hygroscopicity, and nucleation and growth rates observed in coastal nucleation and in the experiments reported here, it is likely that photooxidation of CH2I2, probably aided by other organic iodine compounds, is the mechanism leading to the observed new particle formation in the west coast of Ireland.
@article{
title = {New particle formation from photooxidation of diiodomethane (CH2I2)},
type = {article},
year = {2003},
identifiers = {[object Object]},
keywords = {absorption cross-sections,aerosol mass spectrometer,alkyl iodides,coastal aerosols,coastal environment,crystal-structure,hygroscopic properties,iodine oxides,marine boundary-layer,new particle formation,nucleation,nucleation bursts,raman-spectra,smog chamber,spatial scales},
pages = {-},
volume = {108},
id = {557f7aef-e4ed-3cc8-8904-3d72800cd0a5},
created = {2015-05-08T02:35:26.000Z},
file_attached = {true},
profile_id = {f8c267c4-4c39-31dc-80fa-3a9691373386},
group_id = {63e349d6-2c70-3938-9e67-2f6483f6cbab},
last_modified = {2015-05-08T12:54:21.000Z},
read = {false},
starred = {false},
authored = {false},
confirmed = {true},
hidden = {false},
source_type = {Journal Article},
language = {English},
notes = {686CN<br/>Times Cited:109<br/>Cited References Count:73},
abstract = {[1] Photolysis of CH2I2 in the presence of O-3 has been proposed as a mechanism leading to intense new particle formation in coastal areas. We report here a comprehensive laboratory chamber study of this system. Rapid homogeneous nucleation was observed over three orders of magnitude in CH2I2 mixing ratio, down to a level of 15 ppt (similar to4 x 10(8) molec. cm(-3)) comparable to the directly measured total gas-phase iodine species concentrations in coastal areas. After the nucleation burst, the observed aerosol dynamics in the chamber was dominated by condensation of additional vapors onto existing particles and particle coagulation. Particles formed under dry conditions are fractal agglomerates with mass fractal dimension, D-f similar to 1.8 - 2.5. Higher relative humidity (65%) does not change the nucleation or growth behavior from that under dry conditions, but results in more compact and dense particles (D-f similar to 2.7). On the basis of the known gas-phase chemistry, OIO is the most likely gas-phase species to produce the observed nucleation and aerosol growth; however, the current understanding of this chemistry is very likely incomplete. Chemical analysis of the aerosol using an Aerodyne Aerosol Mass Spectrometer reveals that the particles are composed mainly of iodine oxides but also contain water and/or iodine oxyacids. The system studied here can produce nucleation events as intense as those observed in coastal areas. On the basis of comparison between the particle composition, hygroscopicity, and nucleation and growth rates observed in coastal nucleation and in the experiments reported here, it is likely that photooxidation of CH2I2, probably aided by other organic iodine compounds, is the mechanism leading to the observed new particle formation in the west coast of Ireland.},
bibtype = {article},
author = {Jimenez, J L and Bahreini, R and Cocker, D R and Zhuang, H and Varutbangkul, V and Flagan, R C and Seinfeld, J H and O'Dowd, C D and Hoffmann, T},
journal = {Journal of Geophysical Research-Atmospheres},
number = {D10}
}
Downloads: 0
{"_id":"dku7ST5eEv6m9Pd2T","bibbaseid":"jimenez-bahreini-cocker-zhuang-varutbangkul-flagan-seinfeld-odowd-etal-newparticleformationfromphotooxidationofdiiodomethanech2i2-2003","downloads":0,"creationDate":"2017-01-12T21:32:11.078Z","title":"New particle formation from photooxidation of diiodomethane (CH2I2)","author_short":["Jimenez, J., L.","Bahreini, R.","Cocker, D., R.","Zhuang, H.","Varutbangkul, V.","Flagan, R., C.","Seinfeld, J., H.","O'Dowd, C., D.","Hoffmann, T."],"year":2003,"bibtype":"article","biburl":null,"bibdata":{"title":"New particle formation from photooxidation of diiodomethane (CH2I2)","type":"article","year":"2003","identifiers":"[object Object]","keywords":"absorption cross-sections,aerosol mass spectrometer,alkyl iodides,coastal aerosols,coastal environment,crystal-structure,hygroscopic properties,iodine oxides,marine boundary-layer,new particle formation,nucleation,nucleation bursts,raman-spectra,smog chamber,spatial scales","pages":"-","volume":"108","id":"557f7aef-e4ed-3cc8-8904-3d72800cd0a5","created":"2015-05-08T02:35:26.000Z","file_attached":"true","profile_id":"f8c267c4-4c39-31dc-80fa-3a9691373386","group_id":"63e349d6-2c70-3938-9e67-2f6483f6cbab","last_modified":"2015-05-08T12:54:21.000Z","read":false,"starred":false,"authored":false,"confirmed":"true","hidden":false,"source_type":"Journal Article","language":"English","notes":"686CN<br/>Times Cited:109<br/>Cited References Count:73","abstract":"[1] Photolysis of CH2I2 in the presence of O-3 has been proposed as a mechanism leading to intense new particle formation in coastal areas. We report here a comprehensive laboratory chamber study of this system. Rapid homogeneous nucleation was observed over three orders of magnitude in CH2I2 mixing ratio, down to a level of 15 ppt (similar to4 x 10(8) molec. cm(-3)) comparable to the directly measured total gas-phase iodine species concentrations in coastal areas. After the nucleation burst, the observed aerosol dynamics in the chamber was dominated by condensation of additional vapors onto existing particles and particle coagulation. Particles formed under dry conditions are fractal agglomerates with mass fractal dimension, D-f similar to 1.8 - 2.5. Higher relative humidity (65%) does not change the nucleation or growth behavior from that under dry conditions, but results in more compact and dense particles (D-f similar to 2.7). On the basis of the known gas-phase chemistry, OIO is the most likely gas-phase species to produce the observed nucleation and aerosol growth; however, the current understanding of this chemistry is very likely incomplete. Chemical analysis of the aerosol using an Aerodyne Aerosol Mass Spectrometer reveals that the particles are composed mainly of iodine oxides but also contain water and/or iodine oxyacids. The system studied here can produce nucleation events as intense as those observed in coastal areas. On the basis of comparison between the particle composition, hygroscopicity, and nucleation and growth rates observed in coastal nucleation and in the experiments reported here, it is likely that photooxidation of CH2I2, probably aided by other organic iodine compounds, is the mechanism leading to the observed new particle formation in the west coast of Ireland.","bibtype":"article","author":"Jimenez, J L and Bahreini, R and Cocker, D R and Zhuang, H and Varutbangkul, V and Flagan, R C and Seinfeld, J H and O'Dowd, C D and Hoffmann, T","journal":"Journal of Geophysical Research-Atmospheres","number":"D10","bibtex":"@article{\n title = {New particle formation from photooxidation of diiodomethane (CH2I2)},\n type = {article},\n year = {2003},\n identifiers = {[object Object]},\n keywords = {absorption cross-sections,aerosol mass spectrometer,alkyl iodides,coastal aerosols,coastal environment,crystal-structure,hygroscopic properties,iodine oxides,marine boundary-layer,new particle formation,nucleation,nucleation bursts,raman-spectra,smog chamber,spatial scales},\n pages = {-},\n volume = {108},\n id = {557f7aef-e4ed-3cc8-8904-3d72800cd0a5},\n created = {2015-05-08T02:35:26.000Z},\n file_attached = {true},\n profile_id = {f8c267c4-4c39-31dc-80fa-3a9691373386},\n group_id = {63e349d6-2c70-3938-9e67-2f6483f6cbab},\n last_modified = {2015-05-08T12:54:21.000Z},\n read = {false},\n starred = {false},\n authored = {false},\n confirmed = {true},\n hidden = {false},\n source_type = {Journal Article},\n language = {English},\n notes = {686CN<br/>Times Cited:109<br/>Cited References Count:73},\n abstract = {[1] Photolysis of CH2I2 in the presence of O-3 has been proposed as a mechanism leading to intense new particle formation in coastal areas. We report here a comprehensive laboratory chamber study of this system. Rapid homogeneous nucleation was observed over three orders of magnitude in CH2I2 mixing ratio, down to a level of 15 ppt (similar to4 x 10(8) molec. cm(-3)) comparable to the directly measured total gas-phase iodine species concentrations in coastal areas. After the nucleation burst, the observed aerosol dynamics in the chamber was dominated by condensation of additional vapors onto existing particles and particle coagulation. Particles formed under dry conditions are fractal agglomerates with mass fractal dimension, D-f similar to 1.8 - 2.5. Higher relative humidity (65%) does not change the nucleation or growth behavior from that under dry conditions, but results in more compact and dense particles (D-f similar to 2.7). On the basis of the known gas-phase chemistry, OIO is the most likely gas-phase species to produce the observed nucleation and aerosol growth; however, the current understanding of this chemistry is very likely incomplete. Chemical analysis of the aerosol using an Aerodyne Aerosol Mass Spectrometer reveals that the particles are composed mainly of iodine oxides but also contain water and/or iodine oxyacids. The system studied here can produce nucleation events as intense as those observed in coastal areas. On the basis of comparison between the particle composition, hygroscopicity, and nucleation and growth rates observed in coastal nucleation and in the experiments reported here, it is likely that photooxidation of CH2I2, probably aided by other organic iodine compounds, is the mechanism leading to the observed new particle formation in the west coast of Ireland.},\n bibtype = {article},\n author = {Jimenez, J L and Bahreini, R and Cocker, D R and Zhuang, H and Varutbangkul, V and Flagan, R C and Seinfeld, J H and O'Dowd, C D and Hoffmann, T},\n journal = {Journal of Geophysical Research-Atmospheres},\n number = {D10}\n}","author_short":["Jimenez, J., L.","Bahreini, R.","Cocker, D., R.","Zhuang, H.","Varutbangkul, V.","Flagan, R., C.","Seinfeld, J., H.","O'Dowd, C., D.","Hoffmann, T."],"urls":{"Paper":"http://bibbase.org/service/mendeley/9edae5ec-3a23-3830-8934-2c27bef6ccbe/file/33dd7f10-da1e-9247-4ab5-1a7e045bd7e6/2003-New_particle_formation_from_photooxidation_of_diiodomethane_(CH2I2).pdf.pdf"},"bibbaseid":"jimenez-bahreini-cocker-zhuang-varutbangkul-flagan-seinfeld-odowd-etal-newparticleformationfromphotooxidationofdiiodomethanech2i2-2003","role":"author","keyword":["absorption cross-sections","aerosol mass spectrometer","alkyl iodides","coastal aerosols","coastal environment","crystal-structure","hygroscopic properties","iodine oxides","marine boundary-layer","new particle formation","nucleation","nucleation bursts","raman-spectra","smog chamber","spatial scales"],"downloads":0},"search_terms":["new","particle","formation","photooxidation","diiodomethane","ch2i2","jimenez","bahreini","cocker","zhuang","varutbangkul","flagan","seinfeld","o'dowd","hoffmann"],"keywords":["absorption cross-sections","aerosol mass spectrometer","alkyl iodides","coastal aerosols","coastal environment","crystal-structure","hygroscopic properties","iodine oxides","marine boundary-layer","new particle formation","nucleation","nucleation bursts","raman-spectra","smog chamber","spatial scales"],"authorIDs":[]}