If there are spectra that you would like added to the database please send them to
Anne Handschy in the requested format.
| Spectra ID |
Source |
Group |
AMS Instrument |
EI Energy |
Vaporizer Temp (oC) |
Citation |
Fig # |
Comments |
Data |
| A_HR_001 |
HOA |
K.S. Docherty
Jimenez – University of Colorado |
HR-ToF (V mode)
|
70 eV |
600 |
Docherty, K.S., et al., ACP 2011, 11, 12387-12420. |
Fig 7, pg. 12403 |
SOAR-1 Campaign, Riverside, CA, July 2005 |
A_HR_001_HOA.itx |
| A_HR_002 |
LOA |
K.S. Docherty
Jimenez – University of Colorado |
HR-ToF (V mode)
|
70 eV |
600 |
Docherty, K.S., et al., ACP 2011, 11, 12387-12420. |
Fig 7, pg. 12403 |
SOAR-1 Campaign, Riverside, CA, July 2005 |
A_HR_002_LOA.itx |
| A_HR_003 |
LV_OOA |
K.S. Docherty
Jimenez – University of Colorado |
HR-ToF (V mode)
|
70 eV |
600 |
Docherty, K.S., et al., ACP 2011, 11, 12387-12420. |
Fig 7, pg. 12403 |
SOAR-1 Campaign, Riverside, CA, July 2005 |
A_HR_003_LV_OOA.itx |
| A_HR_004 |
SV_OOA |
K.S. Docherty
Jimenez – University of Colorado |
HR-ToF (V mode)
|
70 eV |
600 |
Docherty, K.S., et al., ACP 2011, 11, 12387-12420. |
Fig 7, pg. 12403 |
SOAR-1 Campaign, Riverside, CA, July 2005 |
A_HR_004_SV_OOA.itx |
| A_HR_005 |
BBOA |
A.C. Aiken
Jimenez – University of Colorado |
HR-ToF (V mode)
|
70 eV |
600 |
Aiken, A.C., et al., ACP 2009, 9, 6633-6653. |
Fig 3, pg. 6641 |
MILAGRO Campaign T0, March 2006 |
A_HR_005_BBOA.itx
HR 4 PMF factors (.xlsx file)
|
| A_HR_006 |
HOA |
A.C. Aiken
Jimenez – University of Colorado |
HR-ToF (V mode)
|
70 eV |
600 |
Aiken, A.C., et al., ACP 2009, 9, 6633-6653. |
Fig 3, pg. 6641 |
MILAGRO Campaign T0, March 2006 |
A_HR_006_HOA.itx
HR 4 PMF factors (.xlsx file)
|
| A_HR_007 |
LV_OOA |
A.C. Aiken
Jimenez – University of Colorado |
HR-ToF (V mode)
|
70 eV |
600 |
Aiken, A.C., et al., ACP 2009, 9, 6633-6653. |
Fig 3, pg. 6641 |
MILAGRO Campaign T0, March 2006 |
A_HR_007_LV_OOA.itx
HR 4 PMF factors (.xlsx file)
|
| A_HR_008 |
SV_OOA |
A.C. Aiken
Jimenez – University of Colorado |
HR-ToF (V mode)
|
70 eV |
600 |
Aiken, A.C., et al., ACP 2009, 9, 6633-6653. |
Fig 3, pg. 6641 |
MILAGRO Campaign T0, March 2006 |
A_HR_008_SV_OOA.itx
HR 4 PMF factors (.xlsx file)
|
| A_HR_009 |
Central Valley, CA |
E. Dunlea, Jimenez Group,
University of Colorado |
HR-ToF-AMS
|
70 eV |
600 oC |
Dunlea, E.J., et al.,
Atmospheric Chemistry and Physics
2009, 9,
pgs.7257-7287 |
S12 |
Fresno & Sacramento Areas |
A_HR_009_Central_Valley.itx |
| A_HR_010 |
Seattle, WA |
E. Dunlea, Jimenez Group,
University of Colorado |
HR-ToF-AMS
|
70 eV |
600 oC |
Dunlea, E.J., et al.,
Atmospheric Chemistry and Physics
2009, 9,
pgs.7257-7287 |
S12 |
Seattle Metro Area |
A_HR_010_Seattle_Region.itx |
| A_HR_011 |
Young Asian Layer (YAL) |
E. Dunlea, Jimenez Group,
University of Colorado |
HR-ToF-AMS
|
70 eV |
600 oC |
Dunlea, E.J., et al.,
Atmospheric Chemistry and Physics
2009, 9,
pgs.7257-7287 |
S12 |
emitted in Asia ~4 days prior |
A_HR_011_YAL.itx |
| A_HR_012 |
Old Asian Layer (OAL) |
E. Dunlea, Jimenez Group,
University of Colorado |
HR-ToF-AMS
|
70 eV |
600 oC |
Dunlea, E.J., et al.,
Atmospheric Chemistry and Physics
2009, 9,
pgs.7257-7287 |
S12 |
emitted in Asia 7 - 10 days prior |
A_HR_012_OAL.itx |
| A_HR_013 |
BBOA
Factor analysis results of ambient measurements
at an urban background site
Barcelona, Spain, March 2009 |
Claudia Mohr
Prévôt – PSI |
HR-ToF (V mode)
|
70 eV |
600 |
Mohr, C., et al., ACP 2012, 12, 1649-1665. |
Fig 2, pg. 1655 |
DAURE campaign, Barcelona, March 2009 |
A_HR_013_BBOA.itx |
| A_HR_014 |
COA
Factor analysis results of ambient measurements
at an urban background site
Barcelona, Spain, March 2009 |
Claudia Mohr
Prévôt – PSI |
HR-ToF (V mode)
|
70 eV |
600 |
Mohr, C., et al., ACP 2012, 12, 1649-1665. |
Fig 2, pg. 1655 |
DAURE campaign, Barcelona, March 2009 |
A_HR_014_COA.itx |
| A_HR_015 |
HOA
Factor analysis results of ambient measurements
at an urban background site
Barcelona, Spain, March 2009 |
Claudia Mohr
Prévôt – PSI |
HR-ToF (V mode)
|
70 eV |
600 |
Mohr, C., et al., ACP 2012, 12, 1649-1665. |
Fig 2, pg. 1655 |
DAURE campaign, Barcelona, March 2009 |
A_HR_015_HOA.itx |
| A_HR_016 |
LV_OOA
Factor analysis results of ambient measurements
at an urban background site
Barcelona, Spain, March 2009 |
Claudia Mohr
Prévôt – PSI |
HR-ToF (V mode)
|
70 eV |
600 |
Mohr, C., et al., ACP 2012, 12, 1649-1665. |
Fig 2, pg. 1655 |
DAURE campaign, Barcelona, March 2009 |
A_HR_016_LV_OOA.itx |
| A_HR_017 |
SV_OOA
Factor analysis results of ambient measurements
at an urban background site
Barcelona, Spain, March 2009 |
Claudia Mohr
Prévôt – PSI |
HR-ToF (V mode)
|
70 eV |
600 |
Mohr, C., et al., ACP 2012, 12, 1649-1665. |
Fig 2, pg. 1655 |
DAURE campaign, Barcelona, March 2009 |
A_HR_017_SV_OOA.itx |
| A_HR_018 |
HOA |
A. Setyan
Zhang - University of California - Davis |
HR-ToF
|
70 eV |
600 |
Setyan, A., et al.,ACP 2012,
12,8131-8156. |
Fig 11, pg. 8144 |
CARES campaign, Cool, CA, June 2010 |
A_HR_018_HOA.itx
|
| A_HR_019 |
LO-OOA |
A. Setyan
Zhang - University of California - Davis |
HR-ToF
|
70 eV |
600 |
Setyan, A., et al.,ACP 2012,
12,8131-8156. |
Fig 11, pg. 8144 |
CARES campaign, Cool, CA, June 2010 |
A_HR_019_LOOOA.itx
|
| A_HR_020 |
MO-OOA |
A. Setyan
Zhang - University of California - Davis |
HR-ToF
|
70 eV |
600 |
Setyan, A., et al.,ACP 2012,
12,8131-8156. |
Fig 11, pg. 8144 |
CARES campaign, Cool, CA, June 2010 |
A_HR_020_MOOOA.itx
|
| A_HR_021 |
OOAa |
S. Saarikoski
FMI Helsinki Finalnd, Risto Hillamo |
HR-ToF
|
70 eV |
600 |
Saarikoski, S., et al.,ACP 2012,
12,8401-8421. |
Fig 7a, pg. 8412 |
SPC Research Station Po Valley, IT April 2008 |
A_HR_021_OOAa.itx
|
| A_HR_022 |
OOAb |
S. Saarikoski
FMI Helsinki Finalnd, Risto Hillamo |
HR-ToF
|
70 eV |
600 |
Saarikoski, S., et al.,ACP 2012,
12,8401-8421. |
Fig 7a, pg. 8412 |
SPC Research Station Po Valley, IT April 2008 |
A_HR_022_OOAb.itx
|
| A_HR_023 |
OOAc |
S. Saarikoski
FMI Helsinki Finalnd, Risto Hillamo |
HR-ToF
|
70 eV |
600 |
Saarikoski, S., et al.,ACP 2012,
12,8401-8421. |
Fig 7a, pg. 8412 |
SPC Research Station Po Valley, IT April 2008 |
A_HR_023_OOAc.itx
|
| A_HR_024 |
HOA |
S. Saarikoski
FMI Helsinki Finalnd, Risto Hillamo |
HR-ToF
|
70 eV |
600 |
Saarikoski, S., et al.,ACP 2012,
12,8401-8421. |
Fig 7a, pg. 8412 |
SPC Research Station Po Valley, IT April 2008 |
A_HR_024_HOA.itx
|
| A_HR_025 |
BBOA |
S. Saarikoski
FMI Helsinki Finalnd, Risto Hillamo |
HR-ToF
|
70 eV |
600 |
Saarikoski, S., et al.,ACP 2012,
12,8401-8421. |
Fig 7a, pg. 8412 |
SPC Research Station Po Valley, IT April 2008 |
A_HR_025_BBOA.itx
|
| A_HR_026 |
NOA |
S. Saarikoski
FMI Helsinki Finalnd, Risto Hillamo |
HR-ToF
|
70 eV |
600 |
Saarikoski, S., et al.,ACP 2012,
12,8401-8421. |
Fig 7a, pg. 8412 |
SPC Research Station Po Valley, IT April 2008 |
A_HR_026_NOA.itx
|
| A_HR_027 |
COA |
Monica Crippa
Prevot - PSI |
HR-ToF
|
70 eV |
600 |
Crippa, M., et al.,JGR 2013,
118,1-19. |
Fig. 3 |
Paris Summer 2009 |
A_HR_027_COA.itx
|
| A_HR_028 |
SV-OOA |
Monica Crippa
Prevot - PSI |
HR-ToF
|
70 eV |
600 |
Crippa, M., et al.,JGR 2013,
118,1-19. |
Fig. 3 |
Paris Summer 2009 |
A_HR_028_SV_OOA.itx
|
| A_HR_029 |
MOA |
Monica Crippa
Prevot - PSI |
HR-ToF
|
70 eV |
600 |
Crippa, M., et al.,JGR 2013,
118,1-19. |
Fig. 3 |
Paris Summer 2009 |
A_HR_029_MOA.itx
|
| A_HR_030 |
LV-OOA |
Monica Crippa
Prevot - PSI |
HR-ToF
|
70 eV |
600 |
Crippa, M., et al.,JGR 2013,
118,1-19. |
Fig. 3 |
Paris Summer 2009 |
A_HR_030_LV_OOA.itx
|
| A_HR_031 |
HOA |
Monica Crippa
Prevot - PSI |
HR-ToF
|
70 eV |
600 |
Crippa, M., et al.,JGR 2013,
118,1-19. |
Fig. 3 |
Paris Summer 2009 |
A_HR_031_HOA.itx
|
| A_HR_032 |
BBOA |
Miriam Elser
Prevot - PSI |
HR-ToF
|
70 eV |
600 |
Elser, M., et al.,ACP 2016, 16, 3207–3225. |
Fig 3, pg. 3215 |
China (Xi'an and Beijing) |
A_HR_032_BBOA.itx
|
| A_HR_033 |
HOA |
Miriam Elser
Prevot - PSI |
HR-ToF
|
70 eV |
600 |
Elser, M., et al.,ACP 2016, 16, 3207–3225. |
Fig 3, pg. 3215 |
China (Xi'an and Beijing) |
A_HR_033_HOA.itx
|
| A_HR_034 |
COA |
Miriam Elser
Prevot - PSI |
HR-ToF
|
70 eV |
600 |
Elser, M., et al.,ACP 2016,
16, 3207–3225. |
Fig 3, pg. 3215 |
China (Xi'an and Beijing) |
A_HR_034_COA.itx
|
| A_HR_035 |
CCOA |
Miriam Elser
Prevot - PSI |
HR-ToF
|
70 eV |
600 |
Elser, M., et al.,ACP 2016, 16, 3207–3225. |
Fig 3, pg. 3215 |
China (Xi'an and Beijing) |
A_HR_035_CCOA.itx
|
| A_HR_036 |
OOA |
Miriam Elser
Prevot - PSI |
HR-ToF
|
70 eV |
600 |
Elser, M., et al.,ACP 2016,
16, 3207–3225. |
Fig 3, pg. 3215 |
China (Xi'an and Beijing) |
A_HR_036_OOA.itx
|
| A_HR_037 |
BBOA |
C. Struckmeier
Drewnick - MPI-C |
HR-ToF (V mode)
|
70 eV |
600 |
Struckmeier, C., et al.,ACP 2016,
16, 15277-15299. |
Fig S11 |
DIAPASON2014 campaign, Rome (Italy) suburban, May/June 2014 |
A_HR_037_BBOA.itx
|
| A_HR_038 |
COA |
C. Struckmeier
Drewnick - MPI-C |
HR-ToF (V mode)
|
70 eV |
600 |
Struckmeier, C., et al.,ACP 2016,
16, 15277-15299. |
Fig S11 |
DIAPASON2014 campaign, Rome (Italy) suburban, May/June 2014 |
A_HR_038_COA.itx
|
| A_HR_039 |
HOA |
C. Struckmeier
Drewnick - MPI-C |
HR-ToF (V mode)
|
70 eV |
600 |
Struckmeier, C., et al.,ACP 2016,
16, 15277-15299. |
Fig. S11 |
DIAPASON2014 campaign, Rome (Italy) suburban, May/June 2014 |
A_HR_039_HOA.itx
|
| A_HR_040 |
LV-OOA |
C. Struckmeier
Drewnick - MPI-C |
HR-ToF (V mode)
|
70 eV |
600 |
Struckmeier, C., et al.,ACP 2016,
16, 15277-15299. |
Fig. S11 |
DIAPASON2014 campaign, Rome (Italy) suburban, May/June 2014 |
A_HR_040_LVOOA.itx
|
| A_HR_041 |
SV-OOA |
C. Struckmeier
Drewnick - MPI-C |
HR-ToF (V mode)
|
70 eV |
600 |
Struckmeier, C., et al.,ACP 2016,
16, 15277-15299. |
Fig. S11 |
DIAPASON2014 campaign, Rome (Italy) suburban, May/June 2014 |
A_HR_041_SVOOA.itx
|
| A_HR_042 |
COA |
C. Struckmeier
Drewnick - MPI-C |
HR-ToF (V mode)
|
70 eV |
600 |
Struckmeier, C., et al.,ACP 2016,
16, 15277-15299. |
Fig. S14 |
POPE2014 campaign, Rome (Italy) urban, June 2014 |
A_HR_042_COA.itx
|
| A_HR_043 |
HOA |
C. Struckmeier
Drewnick - MPI-C |
HR-ToF (V mode)
|
70 eV |
600 |
Struckmeier, C., et al.,ACP 2016,
16, 15277-15299. |
Fig. S14 |
POPE2014 campaign, Rome (Italy) urban, June 2014 |
A_HR_043_HOA.itx
|
| A_HR_044 |
LV-OOA |
C. Struckmeier
Drewnick - MPI-C |
HR-ToF (V mode)
|
70 eV |
600 |
Struckmeier, C., et al.,ACP 2016,
16, 15277-15299. |
Fig. S14 |
POPE2014 campaign, Rome (Italy) urban, June 2014 |
A_HR_044_LVOOA.itx
|
| A_HR_045 |
SV-OOA |
C. Struckmeier
Drewnick - MPI-C |
HR-ToF (V mode)
|
70 eV |
600 |
Struckmeier, C., et al.,ACP 2016,
16, 15277-15299. |
Fig. S14 |
POPE2014 campaign, Rome (Italy) urban, June 2014 |
A_HR_045_SVOOA.itx
|
| A_HR_046 |
CSOA (cigarette smoke OA) |
C. Struckmeier
Drewnick - MPI-C |
HR-ToF (V mode)
|
70 eV |
600 |
Struckmeier, C., et al.,ACP 2016,
16, 15277-15299. |
Fig. S14 |
POPE2014 campaign, Rome (Italy) urban, June 2014 |
A_HR_046_CSOA.itx
|
| A_HR_047 |
HOA |
P. L. Hayes,
Jimenez Group, University of Colorado |
HR-ToF
|
70 eV |
600 |
Hayes, P. L., et al.,JGR-A 2013, DOI: 10.1002/jgrd.50530 |
Fig. 4A |
CalNex campaign, 2010, Pasadena, CA |
A_HR_047_HOA.itx
A_HR_047_HOA_HR.itx
|
| A_HR_048 |
CIOA |
P. L. Hayes,
Jimenez Group, University of Colorado |
HR-ToF
|
70 eV |
600 |
Hayes, P. L., et al.,JGR-A 2013, DOI: 10.1002/jgrd.50530 |
Fig. 4A |
CalNex campaign, 2010, Pasadena, CA |
A_HR_048_CIOA.itx
A_HR_048_CIOA_HR.itx
|
| A_HR_049 |
LOA |
P. L. Hayes,
Jimenez Group, University of Colorado |
HR-ToF
|
70 eV |
600 |
Hayes, P. L., et al.,JGR-A 2013, DOI: 10.1002/jgrd.50530 |
Fig. 4A |
CalNex campaign, 2010, Pasadena, CA |
A_HR_049_LOA.itx
A_HR_049_LOA_HR.itx
|
| A_HR_050 |
LVOOA |
P. L. Hayes,
Jimenez Group, University of Colorado |
HR-ToF
|
70 eV |
600 |
Hayes, P. L., et al.,JGR-A 2013, DOI: 10.1002/jgrd.50530 |
Fig. 4A |
CalNex campaign, 2010, Pasadena, CA |
A_HR_050_LVOOA.itx
A_HR_050_LVOOA_HR.itx
|
| A_HR_051 |
SVOOA |
P. L. Hayes,
Jimenez Group, University of Colorado |
HR-ToF
|
70 eV |
600 |
Hayes, P. L., et al.,JGR-A 2013, DOI: 10.1002/jgrd.50530 |
Fig. 4A |
CalNex campaign, 2010, Pasadena, CA |
A_HR_051_SVOOA.itx
A_HR_051_SVOOA_HR.itx
|
| A_HR_052 |
Ambient OA with strong biomass burning impact (background OA excluded) |
Weiwei Hu; Min Hu-Peking University |
HR-ToF-AMS (W-mode) |
70ev |
600 |
Hu, W. W et al., ACP 2013, 13, 10095-1011 |
Fig. 4(a), pp. 10102 |
Changdao island, an remote island in the downwind of north china plain, China, March-April 2011; This spectrum was obtained with intensive coal combution period. The ambient background was excluded in this spectrum |
A_HR_052.itx
|
| A_HR_053 |
Ambient OA with intensive coal combustion (background OA excluded) |
Weiwei Hu; Min Hu-Peking University |
HR-ToF-AMS (W-mode) |
70ev |
600 |
Hu, W. W et al., ACP 2013, 13, 10095-10112 |
Fig. 4(b), pp. 10102 |
Changdao island, an remote island in the downwind of north china plain, China, March-April 2011; This spectrum was obtained with intensive coal combution period. The ambient background was excluded in this spectrum |
A_HR_053.itx
|
| A_HR_054 |
Ambient OA with strong coal combustion influence (background OA excluded) |
Weiwei Hu; Min Hu-Peking University |
HR-ToF-AMS (W-mode) |
70ev |
600 |
Hu, W. W et al., ACP 2013, 13, 10095-10112 |
Fig. 4 (c), pp. 10102 |
Changdao island, an remote island in the downwind of north china plain, China, March-April 2011; This spectrum was obtained with intensive coal combution period. The ambient background was excluded in this spectrum |
A_HR_054.itx
|
| A_HR_055 |
Coal combustion OA (CCOA, PMF factor) |
Weiwei Hu; Min Hu-Peking University |
HR-ToF-AMS (W-mode) |
70ev |
600 |
Hu, W. W et al., ACP 2013, 13, 10095-10112 |
Fig. 3, pp. 10100 |
Changdao island, an remote island in the downwind of North China Plain, China, March-April 2011 |
A_HR_055.itx
|
| A_HR_056 |
Hydrocarbon-like OA (HOA, PMF factor) |
Weiwei Hu; Min Hu-Peking University |
HR-ToF-AMS (W-mode) |
70ev |
600 |
Hu, W. W et al., ACP 2013, 13, 10095-10112 |
Fig. 3, pp. 10100 |
Changdao island, an remote island in the downwind of North China Plain, China, March-April 2011 |
A_HR_056.itx
|
| A_HR_057 |
Semi-volatile oxygenated OA (SV-OOA, PMF factor) |
Weiwei Hu; Min Hu-Peking University |
HR-ToF-AMS (W-mode) |
70ev |
600 |
Hu, W. W et al., ACP 2013, 13, 10095-10112 |
Fig. 3, pp. 10100 |
Changdao island, an remote island in the downwind of North China Plain, China, March-April 2011 |
A_HR_057.itx
|
| A_HR_058 |
Low volatility oxygenated OA (LV-OOA, PMF factor) |
Weiwei Hu; Min Hu-Peking University |
HR-ToF-AMS (W-mode) |
70ev |
600 |
Hu, W. W et al., ACP 2013, 13, 10095-10112 |
Fig. 3, pp. 10100 |
Changdao island, an remote island in the downwind of North China Plain, China, March-April 2011 |
A_HR_058.itx
|
| A_HR_059 |
Hydrocarbon-like OA (HOA, PMF factor) |
Weiwei Hu; Min Hu-Peking University |
HR-ToF-AMS (W-mode) |
70ev |
600 |
Hu, W. W et al., JGR 2016, 121, 1955-1977 |
Fig. 6, pp. 1964 |
Beijing urban area, Beijing, China, Aug-Sep, 2011 |
A_HR_059.itx
|
| A_HR_060 |
Cooking OA (HOA, PMF factor) |
Weiwei Hu; Min Hu-Peking University |
HR-ToF-AMS (W-mode) |
70ev |
600 |
Hu, W. W et al., JGR 2016, 121, 1955-1977 |
Fig. 6, pp. 1964 |
Beijing urban area, Beijing, China, Aug-Sep, 2011 |
A_HR_060.itx
|
| A_HR_061 |
Less-oxidized OOA (LO-OOA, PMF factor) |
Weiwei Hu; Min Hu-Peking University |
HR-ToF-AMS (W-mode) |
70ev |
600 |
Hu, W. W et al., JGR 2016, 121, 1955-1977 |
Fig. 6, pp. 1964 |
Beijing urban area, Beijing, China, Aug-Sep, 2011 |
A_HR_061.itx
|
| A_HR_062 |
More-oxidized OOA (MO-OOA, PMF factor) |
Weiwei Hu; Min Hu-Peking University |
HR-ToF-AMS (W-mode) |
70ev |
600 |
Hu, W. W et al., JGR 2016, 121, 1955-1977 |
Fig. 6, pp. 1964 |
Beijing urban area, Beijing, China, Aug-Sep, 2011 |
A_HR_062.itx
|
| A_HR_063 |
Less-oxidized OOA (LO-OOA, PMF factor) |
Weiwei Hu; Min Hu-Peking University |
HR-ToF-AMS (W-mode) |
70ev |
600 |
Hu, W. W et al., JGR 2016, 121, 1955-1977 |
Fig. 5, pp. 1963 |
Beijing urban area, Beijing, China, Nov-Dec, 2010 |
A_HR_063.itx
|
| A_HR_064 |
More-oxidized OOA (MO-OOA, PMF factor) |
Weiwei Hu; Min Hu-Peking University |
HR-ToF-AMS (W-mode) |
70ev |
600 |
Hu, W. W et al., JGR 2016, 121, 1955-1977 |
Fig. 5, pp. 1963 |
Beijing urban area, Beijing, China, Nov-Dec, 2010 |
A_HR_064.itx
|
| A_HR_065 |
Cooking OA (COA, PMF factor) |
Weiwei Hu; Min Hu-Peking University |
HR-ToF-AMS (W-mode) |
70ev |
600 |
Hu, W. W et al., JGR 2016, 121, 1955-1977 |
Fig. 5, pp. 1963 |
Beijing urban area, Beijing, China, Nov-Dec, 2010 |
A_HR_065.itx
|
| A_HR_066 |
Hydrocarbon-like OA (HOA, PMF factor) |
Weiwei Hu; Min Hu-Peking University |
HR-ToF-AMS (W-mode) |
70ev |
600 |
Hu, W. W et al., JGR 2016, 121, 1955-1977 |
Fig. 5, pp. 1963 |
Beijing urban area, Beijing, China, Nov-Dec, 2010 |
A_HR_066.itx
|
| A_HR_067 |
Biomass burning OA (BBOA, PMF factor) |
Weiwei Hu; Min Hu-Peking University |
HR-ToF-AMS (W-mode) |
70ev |
600 |
Hu, W. W et al., JGR 2016, 121, 1955-1977 |
Fig. 5, pp. 1963 |
Beijing urban area, Beijing, China, Nov-Dec, 2010 |
A_HR_067.itx
|
| A_HR_068 |
Coal combustion OA (CCOA, PMF factor) |
Weiwei Hu; Min Hu-Peking University |
HR-ToF-AMS (W-mode) |
70ev |
600 |
Hu, W. W et al., JGR 2016, 121, 1955-1977 |
Fig. 5, pp. 1963 |
Beijing urban area, Beijing, China, Nov-Dec, 2010 |
A_HR_068.itx
|
| A_HR_069 |
Isoprene epoxydiols-derived SOA (IEPOX-SOA, PMF factor) |
Weiwei Hu; Jimenez group Univeristy of Colorado at Boulder |
HR-ToF-AMS (V-mode) |
70ev |
600 |
Hu, W. W et al., ACP 2015, 15, 11807-11833 |
Fig. 2, pp. 11812 |
SOAS Campaign, Centreville, AL, June-July 2013 |
A_HR_069.itx
|
| A_HR_070 |
More-oxidized OOA (MO-OOA, PMF factor) |
Weiwei Hu; Jimenez group Univeristy of Colorado at Boulder |
HR-ToF-AMS (V-mode) |
70ev |
600 |
Hu, W. W et al., ACP 2015, 15, 11807-11833 |
No Fig |
SOAS Campaign, Centreville, AL, June-July 2013 |
A_HR_070.itx
|
| A_HR_071 |
Less-oxidized OOAI (LO-OOAI, biogenic-origin, PMF factor) |
Weiwei Hu; Jimenez group Univeristy of Colorado at Boulder |
HR-ToF-AMS (V-mode) |
70ev |
600 |
Hu, W. W et al., ACP 2015, 15, 11807-11833 |
No Fig |
SOAS Campaign, Centreville, AL, June-July 2013 |
A_HR_071.itx
|
| A_HR_072 |
Less-oxidized OOAII (LO-OOAII,Anthropogenic-origin, PMF factor) |
Weiwei Hu; Jimenez group Univeristy of Colorado at Boulder |
HR-ToF-AMS (V-mode) |
70ev |
600 |
Hu, W. W et al., ACP 2015, 15, 11807-11833 |
No Fig |
SOAS Campaign, Centreville, AL, June-July 2013 |
A_HR_072.itx
|
| A_HR_073 |
More-oxidized OOA (MO-OOA, PMF factor) |
Ben Nault, Weiwei Hu; Jimenez group Univeristy of Colorado at Boulder |
HR-ToF-AMS (V-mode) |
70ev |
600 |
Hu, W.W. et al, ACS E&SC, 2018, 2, 4, 410–421 |
Fig. 5 |
KORUS-AQ study (RF05), Flight, South Korean, May 2016 |
A_HR_073.itx
|
| A_HR_074 |
Less-oxidized OOA (LO-OOA, PMF factor) |
Ben Nault, Weiwei Hu; Jimenez group Univeristy of Colorado at Boulder |
HR-ToF-AMS (V-mode) |
70ev |
600 |
Hu, W.W. et al, ACS E&SC, 2018, 2, 4, 410–421 |
Fig. 5 |
KORUS-AQ study (RF05), Flight, South Korean, May 2016 |
A_HR_074.itx
|
| A_HR_075 |
Hydrocarbon-like OA (HOA, PMF factor) |
Ben Nault, Weiwei Hu; Jimenez group Univeristy of Colorado at Boulder |
HR-ToF-AMS (V-mode) |
70ev |
600 |
Hu, W.W. et al, ACS E&SC, 2018, 2, 4, 410–421 |
Fig. 5 |
KORUS-AQ study (RF05), Flight, South Korean, May 2016 |
A_HR_075.itx
|
| A_HR_076 |
Cooking OA (COA, PMF factor) |
Rishabh Shah, Presto group, Carnegie Mellon Univ. |
HR-ToF-AMS (V-mode) |
70 eV |
600 oC |
Shah et al, ACP, 18, 16325–16344, 2018 |
Fig. 4 |
Data collected in Oakland, CA, summer 2017.
For oxygenated OA, the null hypothesis is that they should be spatially invariant over city-wide lengthscales. This publication shows that this is not the case for freshly formed SOA, and that there are increments of this photochemically-formed OA in urban downtown. This finding is consistent with two other similar mobile AMS studies in Pittsburgh, PA, and Barcelona, Spain. |
A_HR_076_COA.itx
|
| A_HR_077 |
Hydrocarbon-like OA (HOA PMF factor) |
Rishabh Shah, Presto group, Carnegie Mellon Univ. |
HR-ToF-AMS (V-mode) |
70 eV |
600 oC |
Shah et al, ACP, 18, 16325–16344, 2018 |
Fig. 4 |
Data collected in Oakland, CA, summer 2017.
For oxygenated OA, the null hypothesis is that they should be spatially invariant over city-wide lengthscales. This publication shows that this is not the case for freshly formed SOA, and that there are increments of this photochemically-formed OA in urban downtown. This finding is consistent with two other similar mobile AMS studies in Pittsburgh, PA, and Barcelona, Spain.
Compared to older studies, these more recent data show that HOA is more chemically reduced. Because of this, I have annotated the plot with elemental ratios. This is consistent with some other more recently collected data in the last 2-3 years. |
A_HR_077_HOA.itx
|
| A_HR_078 |
Less-oxidized, oxygenated OA (LOOOA, PMF factor) |
Rishabh Shah, Presto group, Carnegie Mellon Univ. |
HR-ToF-AMS (V-mode) |
70 eV |
600 oC |
Shah et al, ACP, 18, 16325–16344, 2018 |
Fig. 4 |
Data collected in Oakland, CA, summer 2017.
For oxygenated OA, the null hypothesis is that they should be spatially invariant over city-wide lengthscales. This publication shows that this is not the case for freshly formed SOA, and that there are increments of this photochemically-formed OA in urban downtown. This finding is consistent with two other similar mobile AMS studies in Pittsburgh, PA, and Barcelona, Spain. |
A_HR_078_LOOOA.itx
|
| Spectra ID |
Source |
Group |
AMS Instrument |
EI Energy |
Vaporizer Temp (oC) |
Citation |
Fig # |
Comments |
Data |
| L_STD_HR_001 |
Nonanal |
A. Aiken, Jimenez Group,
University of Colorado |
HR-ToF-AMS
|
70 eV |
600 oC |
Aiken, A., et al.,
Analytical Chemistry
2007, 79,
pgs.8350-8358 |
Fig. 2a , pg. 8356 |
W-Mode; Under Ar from atomization of an isopropanol Soln. |
L_STD_HR_001_Nonanal.itx |
| L_STD_HR_002 |
Oleic Acid |
A. Aiken, Jimenez Group,
University of Colorado |
HR-ToF-AMS
|
70 eV |
600 oC |
Aiken, A., et al.,
Analytical Chemistry
2007, 79,
pgs.8350-8358 |
n/a |
W-Mode; Under Ar from atomization of an isopropanol Soln. |
L_STD_HR_002_OleicAcid.itx |
| L_STD_HR_003 |
Hexadecane |
A. Aiken, Jimenez Group,
University of Colorado |
HR-ToF-AMS
|
70 eV |
600 oC |
Aiken, A., et al.,
Analytical Chemistry
2007, 79,
pgs.8350-8358 |
n/a |
W-Mode; Under Ar from atomization of an isopropanol Soln. |
L_STD_HR_003_Hexadecane.itx
|
| L_STD_HR_004 |
Incense Stick |
Yong Jie LI
Chak K. CHAN – HK Uni. Sci. Tech. |
HR-ToF (W mode)
|
70 eV |
600 |
Li Y.J., et al.,AST 2012,
46,654-665. |
Fig 5a, pg. 662 |
Incense burning with modified frag. table |
L_STD_HR_004_IncenseStick.itx
|
| L_STD_HR_005 |
Incense Coil |
Yong Jie LI
Chak K. CHAN – HK Uni. Sci. Tech. |
HR-ToF (W mode)
|
70 eV |
600 |
Li Y.J., et al.,AST 2012,
46,654-665. |
Fig 5b, pg. 662 |
Incense burning with modified frag. table |
L_STD_HR_005_IncenseCoil.itx
|
| L_STD_HR_006 |
Mosquito Coil |
Yong Jie LI
Chak K. CHAN – HK Uni. Sci. Tech. |
HR-ToF (W mode)
|
70 eV |
600 |
Li Y.J., et al.,AST 2012,
46,654-665. |
Fig 5c, pg. 662 |
Incense burning with modified frag. table |
L_STD_HR_006_MosquitoCoil.itx
|
| L_STD_HR_007 |
Squalene (C30H50) |
Weiwei Hu; Jimenez group Univeristy of Colorado at Boulder |
HR-ToF-AMS (V-mode, Squirrel output) |
70ev |
600 |
Hu, W.W. et al, AST 52:7, 725-739, 2018 |
Fig. 1a1 |
Squalene (C30H50); Purity > 98%; Sigma Aldrich; Atomization with air as carrier gas; Isopropanol as solvent; Isopropanol contribution was not exluded which should be less than 5% |
L_STD_HR_007.itx
|
| L_STD_HR_008 |
Isopropanol (C3H8O) |
Weiwei Hu; Jimenez group Univeristy of Colorado at Boulder |
HR-ToF-AMS (V-mode, Squirrel output) |
70ev |
600 |
Hu, W.W. et al, AST 52:7, 725-739, 2018 |
N/A |
Isopropanol (C3H8O); Purity >=99.5% Sigma Aldrich; atomization with Ar as carrier gas |
L_STD_HR_008.itx
|
| L_STD_HR_009 |
Sucrose (C12H22O11) |
Weiwei Hu; Jimenez group Univeristy of Colorado at Boulder |
HR-ToF-AMS (V-mode, Squirrel output) |
70ev |
600 |
Hu, W.W. et al, AST 52:7, 725-739, 2018 |
Fig. S3b1 |
Sucrose (C12H22O11); Purity >=99%; Sigma Aldrich ; Atomization with Ar as carrier gas; H2O as solvent |
L_STD_HR_009.itx
|
| L_STD_HR_010 |
Glutaric Acid (C5H8O4) |
Weiwei Hu; Jimenez group Univeristy of Colorado at Boulder |
HR-ToF-AMS (V-mode, Squirrel output) |
70ev |
600 |
Hu, W.W. et al, AST 52:7, 725-739, 2018 |
Fig. S3c1 |
Glutaric Acid (C5H8O4); Purity >=99%; Sigma Aldrich ; Atomization with Ar as carrier gas; H2O as solvent |
L_STD_HR_010.itx
|
| L_STD_HR_011 |
Levoglucosan (C6H10O5) |
Weiwei Hu; Jimenez group Univeristy of Colorado at Boulder |
HR-ToF-AMS (V-mode, Squirrel output) |
70ev |
600 |
Hu, W.W. et al, AST 52:7, 725-739, 2018 |
Fig. 1d1 |
Levoglucosan (C6H10O5); Purity>=98%; Sigma Aldrich; Atomization with Ar as carrier gas; H2O as solvent |
L_STD_HR_011.itx
|
| L_STD_HR_012 |
Nicotinic Acid (C6H5NO2) |
Weiwei Hu; Jimenez group Univeristy of Colorado at Boulder |
HR-ToF-AMS (V-mode, Squirrel output) |
70ev |
600 |
Hu, W.W. et al, AST 52:7, 725-739, 2018 |
N/A |
Nicotinic Acid (C6H5NO2); Purity >=98%; Sigma Aldrich; Atomization with Ar as carrier gas; H2O as solvent |
L_STD_HR_012.itx
|
| L_STD_HR_013 |
1,2 bis(4-pyridyl)ethylene (C12H10N2) |
Weiwei Hu; Jimenez group Univeristy of Colorado at Boulder |
HR-ToF-AMS (V-mode, Squirrel output) |
70ev |
600 |
Hu, W.W. et al, AST 52:7, 725-739, 2018 |
Fig. S3d1 |
1,2 bis(4-pyridyl)ethylene (C12H10N2); Purity >=97%; Sigma Aldrich ; Atomization with Ar as carrier gas; Isopropanol as solvent |
L_STD_HR_013.itx
|
| L_STD_HR_014 |
Bis (2-ethylhexyl) ester (DOS) (C26H50O4) |
Weiwei Hu; Jimenez group Univeristy of Colorado at Boulder |
HR-ToF-AMS (V-mode, Squirrel output) |
70ev |
600 |
Hu, W.W. et al, AST 52:7, 725-739, 2018 |
Fig. S3a1 |
Bis (2-ethylhexyl) ester (DOS) (C26H50O4); Air as carrier gas; Heating-condense method in the chamber |
L_STD_HR_014.itx
|
| L_STD_HR_015 |
Citric Acid (C6H8O7) |
Weiwei Hu; Jimenez group Univeristy of Colorado at Boulder |
HR-ToF-AMS (V-mode, Squirrel output) |
70ev |
600 |
Hu, W.W. et al, AST 52:7, 725-739, 2018 |
Fig. 1c1 |
Citric Acid (C6H8O7); Purity >=99.5%; Fisher scientific; Atomization with Air as carrier gas; Isopropanol as solvent. Isopropanol interference has been excluded. |
L_STD_HR_015.itx
|
| L_STD_HR_016 |
Oleic Acid (C18H34O2) |
Weiwei Hu; Jimenez group Univeristy of Colorado at Boulder |
HR-ToF-AMS (V-mode, Squirrel output) |
70ev |
600 |
Hu, W.W. et al, AST 52:7, 725-739, 2018 |
Fig. 1b1 |
OleicAcid (C18H34O2); Purity>98%; Sigma Aldrich; Atomization with air as carrier gas; Isopropanol as solvent; Isopropanol contribution was not exluded which should be less than 5% |
L_STD_HR_016.itx
|
| L_STD_HR_017 |
Brown coal combustion under flaming conditions |
Weiqi Xu; Yele Sun group Chinese Academy of Sciences |
HR-ToF-AMS (V-mode) |
70ev |
600 |
W. Xu et al, AMT, in review |
Fig. 2A |
All fuels were burned in a stove outside a 50 m3 tent, and aerosol particles were then emitted into the tent through a chimney |
L_STD_HR_017_BrownCoalF.itx
|
| L_STD_HR_018 |
Brown coal combustion under smouldering conditions |
Weiqi Xu; Yele Sun group Chinese Academy of Sciences |
HR-ToF-AMS (V-mode) |
70ev |
600 |
W. Xu et al, AMT, in review |
Fig. 2A |
All fuels were burned in a stove outside a 50 m3 tent, and aerosol particles were then emitted into the tent through a chimney |
L_STD_HR_018_BrownCoalS.itx
|
| L_STD_HR_019 |
Bituminous coal combustion under flaming conditions |
Weiqi Xu; Yele Sun group Chinese Academy of Sciences |
HR-ToF-AMS (V-mode) |
70ev |
600 |
W. Xu et al, AMT, in review |
Fig. 1 a6-d6, 2A |
All fuels were burned in a stove outside a 50 m3 tent, and aerosol particles were then emitted into the tent through a chimney |
L_STD_HR_019_SmokyCoalF.itx
|
| L_STD_HR_020 |
Bituminous coal combustion under smouldering conditions |
Weiqi Xu; Yele Sun group Chinese Academy of Sciences |
HR-ToF-AMS (V-mode) |
70ev |
600 |
W. Xu et al, AMT, in review |
Fig. 1 a6-d6, 2A |
All fuels were burned in a stove outside a 50 m3 tent, and aerosol particles were then emitted into the tent through a chimney |
L_STD_HR_020_SmokyCoalS.itx
|
| L_STD_HR_021 |
3-Nitroindole standard |
A. B. Dalton, L. M. Wingen, S. A. Nizkorodov,
Nizkorodov Group, UC Irvine |
HR-ToF-AMS (V-mode) |
70ev |
600 |
ACS Physical Chemistry Au, 2024 |
Fig 3 |
atomized from methanol in air, then dried |
L_STD_HR_021.itx
|
| Spectra ID |
Source |
Group |
AMS Instrument |
EI Energy |
Vaporizer Temp (oC) |
Citation |
Fig # |
Comments |
Data |
| L_SOA_HR_001 |
Chamber m-Xylene peak growth SOA |
Christine Loza
Seinfeld - Caltech |
HR-ToF
|
70 eV |
600 |
Loza, C.L., et al.,ACP 2012,
12,151-167. |
Fig 6, pg. 158 |
m-Xylene SOA peak growth in a chamber laboratory |
L_SOA_HR_001_mxylene_pk.itx
|
| L_SOA_HR_002 |
Chamber m-Xylene aged SOA |
Christine Loza
Seinfeld - Caltech |
HR-ToF
|
70 eV |
600 |
Loza, C.L., et al.,ACP 2012,
12,151-167. |
Fig 6, pg. 158 |
m-Xylene SOA final growth (36 h aging) in a chamber laboratory |
L_SOA_HR_002_mxylene_end.itx
|
| L_SOA_HR_003 |
Chamber a-pinene ozonolysis |
Puneet Chhabra
Seinfeld - Caltech |
HR-ToF
|
70 eV |
600 |
Chhabra, P.S., et al.,ACP 2010,
10, 4111-4131. and Chhabra, P.S., et al. ACP 2011, 11, 8827-8845. |
Fig. 2B, pg. 4116 |
Caltech Chambers, a-pinene ozonolysis, peak SOA loading |
L_SOA_HR_003_a_pinene.itx
|
| L_SOA_HR_004 |
Chamber m-xylene, high NOx |
Puneet Chhabra
Seinfeld - Caltech |
HR-ToF
|
70 eV |
600 |
Chhabra, P.S., et al.,ACP 2010,
10, 4111-4131. and Chhabra, P.S., et al. ACP 2011, 11, 8827-8845. |
Fig. 10B, pg. 4121 |
Chamber m-xylene, high NOx, max loading |
L_SOA_HR_004_m_xylene.itx
|
| L_SOA_HR_005 |
Chamber a-pinene, high NOx |
Puneet Chhabra
Seinfeld - Caltech |
HR-ToF (W-Mode)
|
70 eV |
600 |
Chhabra, P.S., et al.,ACP, 2011, doi:10.5194/acp-11-8827-2011 |
Figure 1,
Supplement,
Lower |
Rooflab Chamber
Species from the Supplement Figure 1, High NOx (lower panel) |
L_SOA_HR_005_a_pinene_HighNOx.itx
|
| L_SOA_HR_006 |
Chamber methacrolein, high NOx |
Puneet Chhabra
Seinfeld - Caltech |
HR-ToF (W-Mode)
|
70 eV |
600 |
Chhabra, P.S., et al.,ACP, 2011, doi:10.5194/acp-11-8827-2011 |
Figure 3,
Supplement
|
Rooflab Chamber
|
L_SOA_HR_006_methacrolein_HighNOx.itx
|
| L_SOA_HR_007 |
Chamber guaiacol, low NOx |
Puneet Chhabra
Seinfeld - Caltech |
HR-ToF (W-Mode)
|
70 eV |
600 |
Chhabra, P.S., et al.,ACP, 2011, doi:10.5194/acp-11-8827-2011 |
Figure 6,
Supplement,
upper panel
|
Rooflab Chamber
|
L_SOA_HR_007_guaiacol_LowNOx.itx
|
| L_SOA_HR_008 |
Chamber guaiacol, high NOx |
Puneet Chhabra
Seinfeld - Caltech |
HR-ToF (W-Mode)
|
70 eV |
600 |
Chhabra, P.S., et al.,ACP, 2011, doi:10.5194/acp-11-8827-2011 |
Fig. 6
Supplement,
upper panel
|
Rooflab Chamber
|
L_SOA_HR_008_guaiacol_HighNOx.itx
|
| L_SOA_HR_009 |
Chamber crotonaldehyde, high NOx |
Puneet Chhabra
Seinfeld - Caltech |
HR-ToF (W-Mode)
|
70 eV |
600 |
Chhabra, P.S., et al.,ACP, 2011, doi:10.5194/acp-11-8827-2011 |
Figure 4,
Supplement
|
Rooflab Chamber
|
L_SOA_HR_009_crotonaldehyde_HighNOx.itx
|
| L_SOA_HR_010 |
Chamber acrolein, high NOx |
Puneet Chhabra
Seinfeld - Caltech |
HR-ToF (W-Mode)
|
70 eV |
600 |
Chhabra, P.S., et al.,ACP, 2011, doi:10.5194/acp-11-8827-2011 |
Figure 2,
Supplement.
|
Rooflab Chamber
|
L_SOA_HR_010_acrolein_HighNOx.itx
|
| L_SOA_HR_011 |
Chamber a-pinene, low NOx |
Puneet Chhabra
Seinfeld - Caltech |
HR-ToF (W-Mode)
|
70 eV |
600 |
Chhabra, P.S., et al.,ACP, 2011, doi:10.5194/acp-11-8827-2011 |
Figure 1,
Supplement,
upper panel
|
Rooflab Chamber
|
L_SOA_HR_011_a_pinene_LowNOx.itx
|
| L_SOA_HR_012 |
Alkane Low Nox SOA, Caltech Chamber, Factor 1 |
Caltech Seinfeld Group
|
HR-ToF
|
70 eV |
600 |
Craven, et al.,ACP, 2012, doi:10.5194/acp-12-11795-2012 |
Figure 7 |
This spectra is from the top panel of Figure 7.
|
L_SOA_HR_012_Dodecane_Factor1.itx
|
| L_SOA_HR_013 |
Alkane Low Nox SOA, Caltech Chamber, Factor 2 |
Caltech Seinfeld Group
|
HR-ToF
|
70 eV |
600 |
Craven, et al.,ACP, 2012, doi:10.5194/acp-12-11795-2012 |
Figure 7 |
This spectra is from the middle panel of Figure 7.
|
L_SOA_HR_013_Dodecane_Factor2.itx
|
| L_SOA_HR_014 |
Alkane Low Nox SOA, Caltech Chamber, Factor 3 |
Caltech Seinfeld Group
|
HR-ToF
|
70 eV |
600 |
Craven, et al.,ACP, 2012, doi:10.5194/acp-12-11795-2012 |
Figure 7 |
This spectra is from the bottom panel of Figure 7.
|
L_SOA_HR_014_Dodecane_Factor3.itx
|
| L_SOA_HR_015 |
SOA from 100 ppb delta Carene + NO3 |
Weiwei Hu; Jimenez group-Univeristy of Colorado at Boulder |
HR-ToF-AMS (W-mode) |
70ev |
600 |
Hu, W.W. et al, AST 52:7, 725-739, 2018 |
Fig. S3e1 |
CU Chambers, delta-Carene NO3 (continously 2 hr N2O3 injection) under dry conditon (RH<5%) |
L_SOA_HR_015.itx
|
| L_SOA_HR_016 |
SOA from 100 ppb a-pinene + NO3 with (NH4)2SO4 seed |
Weiwei Hu; Jimenez group-Univeristy of Colorado at Boulder |
HR-ToF-AMS (W-mode) |
70ev |
600 |
Hu, W.W. et al, AST 52:7, 725-739, 2018 |
Fig. 1e1 |
CU Chambers, a-pienne+ NO3 (5, 7*10 ppb N2O5 injeciton) under dry conditon (RH<5%); AS seed concentration is 31.7 ug/m3. |
L_SOA_HR_016.itx
|
