{"id":104,"date":"2021-06-28T17:16:36","date_gmt":"2021-06-28T17:16:36","guid":{"rendered":"https:\/\/www.engr.colostate.edu\/laboratories\/laqr\/?page_id=104"},"modified":"2021-06-28T17:16:36","modified_gmt":"2021-06-28T17:16:36","slug":"publications","status":"publish","type":"page","link":"https:\/\/www.engr.colostate.edu\/laboratories\/casa\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"\t\t
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For the most recent publications, please refer to Google Scholar Profile.\u00a0<\/a><\/p>\t\t\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/section>\n\t\t\t\t

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Journal Articles in Review (PI in bold and advised students in italic-underlined)<\/h2><\/header>

[55] Garofalo, L. A., He, Y., Jathar, S. H<\/strong>., Pierce, J. R., Fredrickson, C. D., Palm, B. B., Thornton, J. A., Mahrt, F., Crescenzo, G. V., Bertram, A. K., Draper, D. C., Fry, J. L., Orlando, J., Zhang, X. and Farmer, D. K. (2021). Heterogeneous nucleation drives particle size segregation in sequential ozone and nitrate oxidation of catechol, Environmental Science and Technology.<\/p>

[54] Chenna, S.<\/em><\/span>, Asher, Z., Johnston, B., Bradley, T. H., Anderson, C., and Jathar, S. H.<\/strong> (2021). On the use of arti\ufb01cial neural networks to model in-use fuel consumption and tailpipe emissions from light-duty vehicles, Atmospheric Environ-ment.\u00a0(link<\/a>)<\/em><\/p>

[53] Wendt, E. A., Quinn, C., L\u2019Orange, C., Miller-Lionberg, D. D., Ford, B., Pierce, J. R., Meha\ufb00y, J., Cheeseman, M., Jathar, S. H.<\/strong>, Hagan, D. H., Rosen, Z., Long, M., and Volckens, J. (2021). A low-cost monitor for simultaneous measurement of \ufb01ne particulate matter and aerosol optical depth – Part 3: Automation and design improvements, Atmospheric Measurement Techniques Discussions.\u00a0(link<\/a>)<\/em><\/p>

[52] Jathar, S. H<\/strong>., Cappa, C. D., He, Y., Pierce, J. R., Chuang, W., Bilsback K.R., Seinfeld, J. H., Zaveri, R. A., Shrivastava, M. (2021). A computationally e\ufb03cient model to represent the chemistry, thermodynamics, and microphysics of secondary organic aerosols (simpleSOM): model development and application to \u03b1-pinene SOA, published online.\u00a0(link<\/a>)<\/em><\/p><\/div><\/div><\/div><\/div><\/div><\/div>

Refereed Journal Articles (PI in bold and advised students in italic-underlined)<\/strong><\/h2>

[51] Motallebiaraghi, F., Rabinowitz, A., Jathar, S. H<\/strong>., Fong, A., Asher Z., Bradley, T. (2021). High-Fidelity Modeling of Light-Duty Vehicle Emission and Fuel Economy Using Deep Neural Networks, SAE Technical Paper 2021-01-0181.\u00a0(link<\/a>)<\/em><\/p>

[50] Hodshire, A. L.<\/em><\/span>, Ramnarine, E.,\u00a0Akherati,<\/span> A.<\/em>, Alvarado, M. L., Farmer, D. K.,\u00a0Jathar, S. H.<\/strong>, Kreidenweis, S. M., Lonsdale, C. R., Onasch, T. B., Springston, S. R., Wang, J., Wang, Y., Kleinman, L. I., Sedlacek III, A. J., and Pierce, J. R. (2020). Dilution impacts on smoke aging: Evidence in BBOP data, Atmospheric Chemistry and Physics Discussions.\u00a0(link<\/a>)<\/em><\/p>

[49] Marteneis, S. E., Hoskovec, L., Wilson A., Allshouse, W. B., Adgate, J. L., Dabelea, D., Jathar, S. H.<\/strong>, and Magzamen, S. (2020). Assessing the impact of wildfires on the use of black carbon as an indicator of traffic exposures in environmental epidemiology studies, GeoHealth.\u00a0(link<\/a>)<\/em><\/p>

[48] Bond, T., Bosco-Lauth, A., Farmer, D. K., Francisco, P., Pierce, J. R., Fedak, K., Ham, J., Jathar, S. H.<\/strong>, and VandeWoude, S. (2020). Quantifying proximity, confinement, and interventions in disease outbreaks: a decision support framework for air-transported pathogens, Environmental Science and Technology.\u00a0(link<\/a>)<\/em><\/p>

[47]\u00a0He, Yicong.<\/span><\/em>,\u00a0<\/span>Akherati,<\/span> A.<\/em>, Nah, T., Ng, N. L., Garofalo, L., Farmer, D. K., Shiraiwa, M., Zaveri, R., Cappa, C. D., Pierce, J. R., and\u00a0Jathar, S. H.<\/strong> (2020). Particle size distribution dynamics can help constrain the phase state of secondary organic aerosol, Environmental Science and Technology.\u00a0(link<\/a>)<\/em><\/p>

[46] Bilsback, K. R., Kerry, D., Croft, B., Ford, B.,\u00a0Jathar, S. H.<\/strong>, Carter, E., Martin, R. V., and Pierce, J. R. (2020). Beyond SOx reductions from shipping: Assessing the impact of NOx and carbonaceous-particle controls on human health and climate, Environmental Research Letters, in press.\u00a0(link<\/a>)<\/em><\/p><\/div><\/div><\/div>

[45] Morino, Y., Sato, K.,\u00a0Jathar, S. H.<\/strong>, Tanabe, K., Inomata, S., Fujitani, Y., Ramasamy, S., Cappa, C. (2020). Modelling the effects of dimerization and bulk diffusion on the evaporative behavior of secondary organic aerosol formed from alpha-pinene and 1,3,5-trimethylbenzene, Earth and Space Chemistry, 4 (11), 1931-1946.\u00a0(link)<\/em><\/a><\/p>

[44]\u00a0Akherati, A<\/em>.<\/span>,\u00a0He, Y.<\/em>, Coggon, M. M., Koss, A. R.,\u00a0Hodshire, A. L.<\/em><\/span>, Sekimoto, K., Warneke, C., de Gouw, J., Yee, L., Seinfeld, J. H., Onasch, T. B., Herndon, S. C., Knighton, W. B., Cappa, C. D., Kleeman, M. J., Lim, C. Y., Kroll, J. R., Pierce, J. R., and\u00a0Jathar, S. H.<\/strong>\u00a0(2020). Oxygenated aromatic compounds are important precursors of secondary organic aerosol in wildfire emissions, Environmental Science and Technology, 54 (14), 8568-8579.\u00a0(link)<\/em><\/a><\/p>

[43]\u00a0He, Y.<\/em>,\u00a0King, B.<\/em>, Pothier, M.,\u00a0Lewane, L.<\/em>,\u00a0Akherati, A.<\/em>, Mattila, J., Farmer, D. K., McCormick, R., Thornton, M., Pierce, J. R., Volckens, J., and\u00a0Jathar, S. H.<\/strong>\u00a0(2020). Secondary organic aerosol formation from evaporated biofuels: comparison to gasoline and correction for vapor wall losses, Environmental Sciences: Processes and Impacts, 22 (7), 1461-1474.\u00a0(link)<\/em><\/a><\/p>

[42]\u00a0Jathar, S. H.<\/strong>,\u00a0Sharma, N<\/span>.<\/em>, Bilsback., K. R., Pierce, J. R., Vanhanen, J., Gordon, T. D., and Volckens, J. (2020). Emissions and Radiative Impacts of Sub-10 nm Particles from Biofuel and Fossil Fuel Cookstoves, Aerosol Science and Technology, 54 (10), 1231-1243.\u00a0(link)<\/em><\/a><\/p>

[41]\u00a0Jathar, S. H.<\/strong>,\u00a0Sharma, N.<\/em>,\u00a0Galang, A. A.<\/em>,\u00a0Vanderheyden, C.<\/em>, Takhar, M., Chan, A. W. H., Pierce, J. R., and Volckens, J. (2020). Measuring and modeling the primary organic aerosol volatility from a modern non-road diesel engine, Atmospheric Environment, 223, 117221.\u00a0(link)<\/em><\/a><\/p>

[40] Ford, B., Pierce, J. R., Wendt, E., Long, M.,\u00a0Jathar, S. H.<\/strong>, Mehaffy, J., Tryner, J., Quinn, C., van Zyl, L., L\u2019Orange, C., Miller-Lionberg, D., and Volckens, J. (2019). A low-cost monitor for measurement of fine particulate matter and aerosol optical depth \u2013 Part 2: Citizen science pilot campaign in northern Colorado, Atmospheric Measurement Techniques, 12, 6385\u20136399.\u00a0(link)<\/em><\/a><\/p>

[39] Wendt, E. A., Quinn, C. W., Miller-Lionberg, D. D., Tryner, J., L\u2019Orange, C., Ford, B., Yalin, A. P., Pierce, J. R.,\u00a0Jathar, S. H.<\/strong>, and Volckens, J. (2019). A low-cost monitor for simultaneous measurement of fine particulate matter and aerosol optical depth \u2013 Part 1: Specifications and testing, Atmospheric Measurement Techniques, 12, 5431-5441.\u00a0(link)<\/em><\/a><\/p>

[38] Martenies, S.,\u00a0Akherati, A.<\/em>,\u00a0Jathar, S. H.<\/strong>, Magzamen, S. (2019). Health and environmental justice implications of retiring two coal-fired power plants in the southern Front Range region of Colorado, GeoHealth, 3 (9), 266-283.\u00a0(link)<\/em><\/a><\/p>

[37]\u00a0Hodshire, A.<\/em>,\u00a0Akherati, A.<\/em>, Alvarado, M. J., Brown-Steiner, B.,\u00a0Jathar, S. H.<\/strong>, Jimenez, J. L., Kreidenweis, S. M., Lonsdale, C. R., Onasch, T. B., Ortega, A., and Pierce, J. R. (2019). Aging effects on biomass burning aerosol mass and composition: A critical review of field and laboratory studies, Environmental Science and Technology, 53 (17), 10007-10022.\u00a0(link)<\/em><\/a><\/p><\/div><\/div><\/div>

36.\u00a0Hodshire, A. L.<\/em>, Bian, Q., Ramnarine, E., Lonsdale, C. R., Alvarado, M. J., Kreidenweis, S. M.,\u00a0Jathar, S. H.<\/strong>, and Pierce, J. R. (2018). More than emissions and chemistry: Fire size, dilution, and background aerosol also greatly influence near-field biomass burning aerosol aging, Journal of Geophysical Research, 124 (10), 5589-5611.\u00a0(link)<\/em><\/a><\/p>

35.\u00a0Sharma, N.<\/em>,\u00a0Vanderheyden, C.<\/em>, Klunder, K., Henry, C. S., Volckens, J., and\u00a0Jathar, S. H.<\/strong>\u00a0(2018). Oxidative potential of diesel exhaust particles: Role of fuel, engine load, and emissions control, Environmental Sciences: Processes and Impacts, 21 (5), 819-830.\u00a0(link)<\/em><\/a><\/p>

34. Shrivastava, M., M. O. Andreae, P. Artaxo, H. M. J. Barbosa, L. K. Berg, J. Brito, J. Ching, R. C. Easter, J. Fan, J. D. Fast, Z. Feng, J. D. Fuentes, M. Glasius, A. H. Goldstein, E. G. Alves, H. Gomes, D. Gu, A. Guenther,\u00a0Jathar, S. H.<\/strong>, S. Kim, Y. Liu, S. Lou, S. T. Martin, V. F. McNeill, A. Medeiros, S. S. de S, J. E. Shilling, S. R. Springston, R. A. F. Souza, J. A. Thornton, G. Isaacman-VanWertz, L. D. Yee, R. Ynoue, R. A. Zaveri, A. Zelenyuk and C. Zhao. (2019). Urban pollution greatly enhances formation of natural aerosols over the Amazon rainforest, Nature Communications, 10(1), 1046.\u00a0(link)<\/em><\/a><\/p>

33.\u00a0Akherati, A.<\/em>, Cappa, C. D., Kleeman, M. J., Docherty, K. S., Jimenez, J. L., Griffith, S. M., Dusanter, S., Stevens, P. S., and\u00a0Jathar, S. H.<\/strong>\u00a0(2018). Simulating secondary organic aerosol in a regional air quality model using the statistical oxidation model \u2013 Part 3: Assessing the influence of semi-volatile and intermediate volatility organic compounds and NOx, Atmospheric Chemistry and Physics, 19 (7), 4561-4594.\u00a0(link)<\/em><\/a><\/p>

32. Kodros, J., Volckens, J.,\u00a0Jathar, S.<\/strong>, and Pierce, J. (2018). Ambient particulate matter size distributions drive regional and global variability in particle deposition in the respiratory tract, GeoHealth, 2, 298-312.\u00a0(link)<\/em><\/a><\/p>

31. Asher, Z. D.,\u00a0Galang, A. A.<\/em>, Briggs, W., Johnston, B., Bradley, T. H., and\u00a0Jathar, S.<\/strong>\u00a0(2018). Economic and efficient hybrid vehicle fuel economy and emissions modeling using an artificial neural network, SAE Technical Paper, 0148-7191.\u00a0(link)<\/em><\/a><\/p>

30. McDonald, B. C., de Gouw, J. A., Gilman, J. B.,\u00a0Jathar, S. H.<\/strong>,\u00a0Akherati, A.<\/em>, Cappa, C. D., Jimenez, J. L., Lee-Taylor, J., Hayes, P. L., McKeen, S. A., Cui, Y. Y., Kim, S.-W., Gentner, D. R., Isaacman-VanWertz, G., Goldstein, A. H., Harley, R. A., Frost, G. J., Roberts, J. M., Ryerson, T. B., and Trainer, M. (2018). Volatile chemical products emerging as largest petrochemical source of urban organic emissions, Science, 359, 760-764.\u00a0(link)<\/em><\/a><\/p>

29.\u00a0Eluri, S.<\/em>, Cappa, C. D., Friedman, B., Farmer, D. K., and\u00a0Jathar, S. H.<\/strong>\u00a0(2018). Modeling the formation and composition of secondary organic aerosol from diesel exhaust using parameterized and semi-explicit chemistry and thermodynamic models, Atmospheric Chemistry and Physics, 18, 13813-13838.\u00a0(link)<\/em><\/a><\/p>

28. Friedman, B., Link, M. F., Fulgham, S. R., Brophy, P.,\u00a0Galang, A. A.<\/em>, Brune, W. H.,\u00a0Jathar, S. H.<\/strong>, and Farmer, D. K. (2017). Primary and Secondary Sources of Gas-Phase Organic Acids from Diesel Exhaust, Environmental Science & Technology, 51, 10872-10880.\u00a0(link)<\/a><\/em><\/p>

27. Nanthagopal, K., Ashok, B., Raj, T. D.,\u00a0Jathar, S. H.<\/strong>, John Samuel, K., Krishnan, R., Sathyanand, T., Logesh, S. (2017). Lemon Essential Oil \u2013 A Partial Substitute for Petroleum Diesel Fuel in Compression Ignition Engine, International Journal of Renewable Energy Research, 7(2), 467-475.\u00a0(link)<\/a><\/em><\/p><\/div><\/div><\/div>

26.\u00a0Jathar, S. H.<\/strong>, Heppding, C., Link, M. F., Farmer, D. K.,\u00a0Akherati, A.<\/em>, Kleeman, M. J., de Gouw, J. A., Veres, P. R., and Roberts, J. M. (2017). Investigating Diesel Engines as an Atmospheric Source of Isocyanic Acid in Urban Areas, Atmospheric Chemistry and Physics, 17(14), 8959-8970.\u00a0(link)<\/a><\/em><\/p>

25.\u00a0Jathar, S. H.<\/strong>, Woody, M., Pye, H. O. T., Baker, K. R., and Robinson, A. L. (2017). Chemical Transport Model Simulations of Organic Aerosol in Southern California: Model Evaluation and Gasoline and Diesel Source Contributions, Atmospheric Chemistry and Physics, 17(6), 4305-4318.\u00a0(link)<\/a><\/em><\/p>

24. Bian, Q.,\u00a0Jathar, S. H.<\/strong>, Kodros, J. K., Barsanti, K. C., Hatch, L. E., May, A. A., Kreidenweis, S. M., and Pierce, J. R. (2017). Secondary organic aerosol formation in biomass-burning plumes: Theoretical analysis of lab studies and ambient plumes, Atmospheric Chemistry and Physics, 17(8), 5459-5475.\u00a0(link)<\/a><\/em><\/p>

23. Hu, J.,\u00a0Jathar, S. H.<\/strong>, Zhang, H., Ying, Q., Chen, S. H., Cappa, C. D., and Kleeman, M. J. (2016). Long-term Particulate Matter Modeling for Health Effects Studies in California \u2013 Part II: Concentrations and Sources of Ultrafine Organic Aerosols, Atmospheric Chemistry and Physics, 17(8), 5379-5391.\u00a0(link)<\/a><\/em><\/p>

22\u00a0Jathar, S. H.<\/strong>, Friedman, B.,\u00a0Galang, A. A.<\/em>, Link, M. F., Brophy, P., Volckens, J.,\u00a0Eluri, S.<\/em>, and Farmer, D. K. (2016). Linking Load, Fuel and Emission Controls to Photochemical Production of Secondary Organic Aerosol from a Diesel Engine, Environmental Science & Technology, 51(3), 1377-1386.\u00a0(link)<\/a><\/em><\/p>

21. Gentner, D. R., Jathar, S. H., Gordon, T. D., Bahreini, R., Day, D. A., El Haddad, I., Hayes, P. L., Pieber, S. M., Platt, S. M., and de Gouw, J. A. (2016). A review of urban secondary organic aerosol formation from gasoline and diesel motor vehicle emissions, Environmental Science & Technology, 51(3), 1074-1093.\u00a0(link)<\/a><\/em><\/p><\/div><\/div><\/div>

20. Zhao, B., Wang, S., Donahue, N. M.,\u00a0Jathar, S. H.<\/strong>, Huang, X., Wu, W., Hao, J., and Robinson, A. L. (2016). Quantifying the effect of organic aerosol aging and intermediate-volatility emissions on regional-scale aerosol pollution in China, Scientific Reports, 6, 28815.\u00a0(link)<\/em><\/a><\/p>

19.\u00a0Schill, G. P.,\u00a0Jathar, S. H.<\/strong>,\u00a0Kodros, J. K., Levin, E. J. T.,\u00a0Galang, A. A.<\/em>, Friedman, B., Link, M. F., Farmer, D. K., Pierce, J. R.,\u00a0Kreidenweis, S. M., DeMott, P. J.\u00a0(2016). Ice-nucleating particle emissions from photochemically aged diesel and biodiesel exhaust, Geophysical Research Letters, 43, 5524\u20135531.\u00a0(link)<\/a><\/em><\/p>

18. Link, M. F., Friedman, B., Fulgham, R., Brophy, P.,\u00a0Galang, A.<\/em>,\u00a0Jathar, S. H.<\/strong>, Veres, P., Roberts, J. M., Farmer, D. K. (2016<\/b>). Photo- chemical processing of diesel fuel emissions forms a large secondary source of isocyanic acid (HNCO), Geophysical Research Letters, 43,\u00a01944-8007.\u00a0(link)<\/a><\/p>

17. Cappa, C. D.,\u00a0Jathar, S. H.<\/strong>, Kleeman, M. J., Docherty, K. S., Jimenez, J. L., Seinfeld, J. H., and Wexler, A. S. (2016<\/strong>). Simulating secondary organic aerosol in a regional air quality model using the statis- tical oxidation model-Part 2: Assessing the influence of vapor wall losses, Atmospheric Chemistry and Physics, 15, 3041-3059.\u00a0(link)<\/a><\/em><\/p>

16.\u00a0Jathar, S. H.<\/strong>, Cappa, C. D., Wexler, A. S., Seinfeld, J. H., and Kleeman, M. J. (2016<\/strong>). Simulating secondary organic aerosol in a regional air quality model using the statistical oxidation model-Part 1: Assessing the influence of constrained multi-generational ageing, Atmospheric Chem- istry and Physics, 16, 2309-2322.\u00a0(link)<\/a><\/em><\/p><\/div><\/div><\/div>

15.\u00a0Jathar, S. H.<\/strong>,\u00a0Mahmud, A.,\u00a0Barsanti, K. C.,\u00a0Asher, W. C.,\u00a0Pankow, J. F., and\u00a0Kleeman, M. J. (2016<\/strong>).\u00a0Water uptake and its influence on gas\/particle partitioning of secondary organic aerosol in the United States, Atmospheric Environment, 129, 142-154.\u00a0(link)<\/em><\/a><\/p>

14.\u00a0Pankow, J. F., Marks, M. C., Barsanti, K. C., Mahmud, A., Asher, W. E., Li, J., Ying, Q.,\u00a0Jathar, S. H.<\/strong>, and Kleeman, M. J. (2015<\/strong>).\u00a0Molecular View Modeling of Atmospheric Organic Particulate Matter Incorporating Molecular Structure and Co-Condensation of Water, Atmospheric Environment,\u00a0122, 400-408.\u00a0(link)<\/em><\/a><\/p>

13.\u00a0Jathar, S. H.<\/strong>, Cappa, C. D., Wexler, A. S., Seinfeld, J. H., and Kleeman, M. J. (2015<\/strong>).\u00a0Multi-generational oxidation model to simulate secondary organic aerosol in a 3-D air quality model, Geoscientific Model Development, 8, 2553-2567.\u00a0(link)<\/em><\/a><\/p>

12. Woody, M. C., West, J. J.,\u00a0Jathar, S. H.<\/strong>, Robinson, A. L., and Arunachalam, S. (2014<\/strong>).\u00a0Estimates of non-traditional secondary organic aerosols from aircraft SVOC and IVOC emissions using CMAQ,\u00a0Atmospheric Chemistry and Physics Discussions,\u00a014(22), 30667-30703.\u00a0(link)<\/em><\/a><\/p>

11. Tkacik, D. S., Lambe, A.,\u00a0Jathar, S<\/strong>.\u00a0H.<\/strong>, Li, X., Presto, A. A., Zhao, Y., Blake, D., Meinardi, S., Jayne, J. T., Croteau, P. L., \u00a0and Robinson, A. L. (2014). Secondary organic aerosol formation from in-use motor vehicle emissions using a Potential Aerosol Mass reactor, Environmental Science & Technology, 48 (19), 11235\u201311242.\u00a0(link)<\/em><\/a><\/p>

10.\u00a0Jathar, S. H<\/strong>., Gordon, T. D., Hennigan, C. J., Pye, H. O. T., Pouliot, G.A., Adams, P. J., Donahue, N. M., and Robinson, A. L. (2014<\/strong>). Unspeciated organic emissions from combustion sources and their influence on the secondary organic aerosol budget in the United States, Proceedings of the National Academy of Sciences, 111 (29), 10473-10478.\u00a0(link)<\/em><\/a><\/p>

9.\u00a0Jathar, S. H.<\/strong>, Donahue, N. M., Adams, P. J., and Robinson, A. L. (2014<\/strong>). Testing secondary organic aerosol models using smog chamber data for complex precursor mixtures: influence of precursor volatility and molecular structure, Atmospheric Chemistry and Physics, 14, 5771-5780.\u00a0(link)<\/em><\/a><\/p>

8. Zhang, X., Cappa, C. D.,\u00a0Jathar, S. H.<\/strong>, McVay, R. C., Ensberg, J. J., Kleeman, M. J. and Seinfeld, J. H (2014<\/strong>). Influence of vapor wall loss in laboratory chambers on yields of secondary organic aerosol, Proceedings of the National Academy of Sciences, 111 (16) 5802-5807.\u00a0(link)<\/em><\/a><\/p>

7. Ensberg, J. J., Hayes, P. L., Jimenez, J. L., Gilman, J. B., Kuster, W. C., de Gouw, J. A., Holloway, J. S., Gordon, T. D.,\u00a0Jathar, S. H.<\/strong>, Robinson, A. L., and Seinfeld, J. H. (2014<\/strong>). Emission factor ratios, SOA mass yields, and the impact of vehicular emissions on SOA formation, Atmospheric Chemistry and Physics, 14, 2383-2397.\u00a0<\/a>(link)<\/em><\/a><\/p>

6. Tsigaridis, K., Daskalakis, N., Kanakidou, M., Adams, P. J., Artaxo, P., Bahadur, R., Balkanski, Y., Bauer, S. E., Bellouin, N., Benedetti, A., Bergman, T., Berntsen, T. K., Beukes, J. P., Bian, H., Carslaw, K. S., Chin, M., Curci, G., Diehl, T., Easter, R. C., Ghan, S. J., Gong, S. L., Hodzic, A., Hoyle, C. R., Iversen, T.,\u00a0Jathar, S. H.<\/strong>, Jimenez, J. L., Kaiser, J. W., Kirkev\u00e5g, A., Koch, D., Kokkola, H., Lee, Y. H., Lin, G., Liu, X., Luo, G., Ma, X., Mann, G. W., Mihalopoulos, N., Morcrette, J.-J., M\u00fcller, J.-F., Myhre, G., Myriokefalitakis, S., Ng, S., O\u2019Donnell, D., Penner, J. E., Pozzoli, L., Pringle, K. J., Russell, L. M., Schulz, M., Sciare, J., Seland, \u00d8., Shindell, D. T., Sillman, S., Skeie, R. B., Spracklen, D., Stavrakou, T., Steenrod, S. D., Takemura, T., Tiitta, P., Tilmes, S., Tost, H., van Noije, T., van Zyl, P. G., von Salzen, K., Yu, F., Wang, Z., Wang, Z., Zaveri, R. A., Zhang, H., Zhang, K., Zhang, Q., and Zhang, X.\u00a0(2014<\/strong>). The AeroCom evaluation and intercomparison of organic aerosol in global models, Atmospheric Chemistry and Physics Discussions, 14, 6027-6161.\u00a0<\/a>(link)<\/em><\/a><\/p>

5. Gordon, T. D., Tkacik, D. S., Presto, A. A., Zhang, M.,\u00a0Jathar, S. H.<\/strong>, Nguyen, N., Massetti, J., Truong, T., Cicero-Fernandez, P., Maddox, C., Rieger, P., Chattopadhyay, S., Maldonado, H., Maricq, M. M. and Robinson, A. L. (2013<\/strong>). Primary gas-and particle-phase emissions and secondary organic aerosol production from gasoline and diesel off-road engines. Environmental science and technology, 47 (24), 14137-14146.\u00a0<\/a>(link)<\/em><\/a><\/p>

4.\u00a0Jathar, S. H.<\/strong>, Miracolo, M., Tkacik, D., Donahue, N. M., Adams, P. J., and Robinson, A. L. (2013<\/strong>). Secondary organic aerosol formation from photo-oxidation of unburned fuel: experimental results and implications for aerosol formation from combustion emissions. Environmental science and technology, 47 (22), 12886-12893.\u00a0<\/a>(link)<\/em><\/a><\/p>

3. Miracolo, M. A., Drozd, G. T.,\u00a0Jathar, S. H.<\/strong>, Presto, A. A., Lipsky, E. M., Corporan, E., and Robinson, A. L. (2012<\/strong>). Fuel composition and secondary organic aerosol formation: Gas-turbine exhaust and alternative aviation fuels. Environmental science and technology, 46(15), 8493-8501.\u00a0<\/a>(link)<\/em><\/a><\/p>

2.\u00a0Jathar, S. H.<\/strong>, Miracolo, M. A., Presto, A. A., Donahue, N. M., Adams, P. J., and Robinson, A. L. (2012<\/strong>). Modeling the formation and properties of traditional and non-traditional secondary organic aerosol: problem formulation and application to aircraft exhaust. Atmospheric Chemistry and Physics, 12(19), 9025-9040.\u00a0<\/a>(link)<\/em><\/a><\/p>

1.\u00a0Jathar, S. H.<\/strong>, Farina, S. C., Robinson, A. L., and Adams, P. J. (2011<\/strong>). The influence of semi-volatile and reactive primary emissions on the abundance and properties of global organic aerosol. Atmospheric Chemistry and Physics, 11(15), 7727-7746.\u00a0<\/a>(link)<\/em><\/a><\/p>

Non-Refereed Journal Articles \/ Chapters \/ Proceedings \/ Transactions<\/strong><\/h2>

1. Arunachalam, S., Woody, M., Rissman, J., Binkowski, F., Wong, H. W.,\u00a0Jathar, S. H.<\/strong>, and Robinson, A. (2014<\/strong>). An enhanced sub-grid scale approach to characterize air quality impacts of aircraft emissions. In Air Pollution Modeling and its Application XXII (pp. 327-332). Springer Netherlands.\u00a0<\/a>(link)<\/em><\/a><\/p><\/div>\t\t\t\t\t\t\t\t<\/div>\n\t\t\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/div>\n\t\t\t\t\t<\/div>\n\t\t<\/section>\n\t\t\t\t<\/div>\n\t\t","protected":false},"excerpt":{"rendered":"

Publications For the most recent publications, please refer to Google Scholar Profile.\u00a0 Journal Articles in Review (PI in bold and advised students in italic-underlined) [55] Garofalo, L. A., He, Y., Jathar, S. H., Pierce, J. R., Fredrickson, C. D., Palm, B. B., Thornton, J. A., Mahrt, F., Crescenzo, G. V., Bertram, A. K., Draper, D.…Read more <\/a><\/p>\n","protected":false},"author":1,"featured_media":323,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"elementor_header_footer","meta":{"footnotes":""},"class_list":["post-104","page","type-page","status-publish","has-post-thumbnail","hentry"],"yoast_head":"\nPublications - CASA<\/title>\n<meta name=\"description\" content=\"Publications related to the research of emissions, processes, and impacts from air pollution sources at Colorado State University.\" \/>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/www.engr.colostate.edu\/laboratories\/casa\/publications\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Publications - CASA\" \/>\n<meta property=\"og:description\" content=\"Publications related to the research of emissions, processes, and impacts from air pollution sources at Colorado State University.\" \/>\n<meta property=\"og:url\" content=\"https:\/\/www.engr.colostate.edu\/laboratories\/casa\/publications\/\" \/>\n<meta property=\"og:site_name\" content=\"CASA\" \/>\n<meta name=\"twitter:card\" content=\"summary_large_image\" \/>\n<meta name=\"twitter:label1\" content=\"Est. reading time\" \/>\n\t<meta name=\"twitter:data1\" content=\"14 minutes\" \/>\n<script type=\"application\/ld+json\" class=\"yoast-schema-graph\">{\"@context\":\"https:\\\/\\\/schema.org\",\"@graph\":[{\"@type\":\"WebPage\",\"@id\":\"https:\\\/\\\/www.engr.colostate.edu\\\/laboratories\\\/casa\\\/publications\\\/\",\"url\":\"https:\\\/\\\/www.engr.colostate.edu\\\/laboratories\\\/casa\\\/publications\\\/\",\"name\":\"Publications - 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