ÌÇÐÄvlog¹Ù·½Èë¿Ú

71) . M.A. Hoque, J. Barrios Cossio, and M.I. Guzman. Journal of Physical ÌÇÐÄvlog¹Ù·½Èë¿Ú C (2024), 128, 17470-17482, .

70) Coal Ash Triggers an Elevated Temperature Landfill Development: Lessons from the Bristol Virginia Solid Waste Landfill Neighboring Community. R.P. Witt and M.I. Guzman. Environments (2024), 11 (9), 201, .

69) Environmental Sustainability in Gynecologic Oncology. M.V. Becker, L.M. Harbin, E. Knapp, R.T. Nair, M.I. Guzman, D.A. Atwood, S.Z. Ali, C.S. Dietrich. Gynecology Oncology Reports (2024) 55, 101499, .

68) . J. Hsu, M.S.E. Houache, Y. Abu-Lebdeh, R.A. Patton, M.I. Guzman, and H.A. Al-Abadleh. Langmuir (2024) 40, 2377-2384, .

67) . M.S. Rana, S.T Bradley, and M.I. Guzman. ACS ES&T Air, 1, 80-91, (2024), .

66) . M.I. Guzman and T.J. Schuyler. Patent ID US 11761937 B2, Published on 09/19/2023.

65) . M.S. Rana and M.I. Guzman. ACS Earth and Space ÌÇÐÄvlog¹Ù·½Èë¿Ú (2022), 6, 2900-2909, .

64) . M.S. Rana and M.I. Guzman. Environmental Science and Technology (2022), 56, 15437-15448. .

63) . M.A. Hoque, M.I. Guzman, J.P. Selegue, and M.K. Gnanamani. Materials (2022), 15,(20), 7378. .

62) . M.I. Guzman, E.A. Pillar-Little, and A.J. Eugene. ACS Omega (2022), 7, 36009-36016. .

61) . H.A. Al-Abadleh, F. Motaghedi, W. Mohammed, M.S. Rana, K.A. Malek, D. Rastogi, A.A. Asa-Awuku, and M.I. Guzman. Communications ÌÇÐÄvlog¹Ù·½Èë¿Ú (2022) 5, 112. .

60) . M.S. Rana and M.I. Guzman. Journal of Physical ÌÇÐÄvlog¹Ù·½Èë¿Ú A (2022), 126, 126, 6502–6516; .

59) . A. Barkhordari, M.I. Guzman, G. Ebrahimzadeh, A. Sorooshian, M. Delikhoon, M.J. Rastani, S. Golbaz, M. Fazlzadeh, R. Nabizadeh, A.N. Baghani. Waste Management (2022), 150, 244-256.

58) . T.B. Jorgensen, K. Abad, M. Sarma, M.I. Guzman, J.G. Thompson, K. Liu. International Journal of Greenhouse Gas Control (2022) 116, 103646, .

57) . A.N. Baghani, S. Golbaz, G. Ebrahimzadeh, M.I. Guzman, M Delikhoon, M.J. Rastani, A. Barkhordarie, R. Nabizadeh. Ecotoxicology and Environmental Safety (2022)  232, 113272.

56) . M.I. Guzman and A.J. Eugene. Molecules (2021), 26 (17), 5278, .

55) . M. Delikhoon, M.I. Guzman, R. Nabizadeh, A.N. Baghani. International Journal of Environmental Research and Public Health (2021), 18 (2), 395; .

54) . M.I. Guzman. International Journal of Health Planning and Management (2020). DOI: 10.1002/hpm.3095.

53) . H.A. Al-Abadleh, M.S. Rana, W. Mohammed, and M.I. Guzman. Environmental Science and Technology (2021), 55, 209-219, .

52) . T.J. Schuyler, B. Irvin, K. Abad, J.T. Thompson, K. Liu and M.I. Guzman. Sensors (2020), 20 (23), 6974; .

51) . M.I. Guzman. Atmosphere (2020), 11 (11), 1208, .

50) . M.S. Rana and M.I. Guzman. Journal of Physical ÌÇÐÄvlog¹Ù·½Èë¿Ú A (2020), 124, 8822-8833, .

49) . S.C.C.Bailey, M.P. Sama, C.A. Canter, L.F. Pampolini, Z.S. Lippay, T.J. Schuyler, J.D. Hamilton, S.B. MacPhee, I.S. Rowe, C.D. Sanders, V.G. Smith, C.N. Vezzi, H.M. Wight, J.B. Hoagg, M.I. Guzman, and S.W. Smith. Earth Syst. Sci. Data (2020), .

48) . M.I. Guzman. Preprints (2020), 202004.0093. DOI: 10.20944/preprints202004.0093.v2.

47) . N. Wanninayake, Q. Ai, R. Zhou, M.A. Hoque, S. Herrell, M.I. Guzman, C. Risko, and D.Y. Kim. Carbon (2020), 408-419, DOI: 10.1016/j.carbon.2019.10.022.

46) . A.J. Eugene and M.I. Guzman. Environmental Science and Technology (2019), 53, 12425-12432, DOI: 10.1021/acs.est.9b03742.

45) . T.J. Schuyler, S.C.C. Bailey, and M.I. Guzman. Atmosphere (2019), 10 (8), 434, DOI: 10.3390/atmos10080434.

44) . D. Heger, A.J. Eugene, S.R. Parkin and M.I. Guzman. Acta Crystallographica Section E: Crystallographic Communications (2019), 75 (6), 858-862, DOI: 10.1107/S205698901900707.

43) . L. Barbieri, S.T. Kral, S.C.C. Bailey, A.E. Frazier, J.D. Jacob, J. Reuder, D. Brus, P.B. Chilson, C. Crick, C. Detweiler, A. Doddi, J. Elston, H. Foroutan, J. Gonzalez-Rocha, B.R. Greene, M.I. Guzman, A.L. Houston, A. Islam, O. Kemppinen, D. Lawrence, E.A. Pillar-Little, S.D. Ross, M. Sama, D.G. Schmale III, T.J. Schuyler, A. Shankar, S.W. Smith, S. Waugh, C. Dixon, S. Borenstein, and G. de Boer. Sensors (2019), 19 (9), 2179, DOI: 10.3390/s19092179.

42) . T.J. Schuyler, S.M.I. Gohari, G. Pundsack, D. Berchoff, and M.I. Guzman. Sensors (2019), 19 (8), 1914, DOI: 10.3390/s19081914.

41) . A.J. Eugene and M.I. Guzman. Molecules (2019), 24 (6), 1124, DOI: 103390/molecules24061124.

40) . M.A. Hoque and M.I. Guzman. Materials (2018), 11 (10), 1190, DOI: 10.3390/ma11101990.

39) . E.A. Pillar-Little and M.I. Guzman. Environments (2018), 5 (9), 104, DOI: 10.3390/environments5090104.

38) . S.-S. Xia, A.J. Eugene, and M.I. Guzman. Journal of Physical ÌÇÐÄvlog¹Ù·½Èë¿Ú A (2018), 122, 6457-6466, DOI: 10.1021/acs.jpca.8b05724.

37) . A.J. Eugene, E.A. Pillar, A.J. Colussi, and M.I. Guzman. Langmuir (2018), 34, 9307-9313, DOI: 10.1021/acs.langmuir.8b01606.

36) A.J. Eugene and M.I. Guzman. Journal of Physical ÌÇÐÄvlog¹Ù·½Èë¿Ú A (2017), 121, 8741-8744, DOI: 10.1021/acs.jpca.7b08273. PDF

35) . T.J. Schuyler and M.I. Guzman, Atmosphere (2017), 8 (10), 206, DOI:10.3390/atmos8100206.

34) . M.E. Aguirre, R. Zhou, A.J. Eugene, M.I. Guzman, and M.A. Grela. Applied Catalysis B: Environmental (2017), 217, 485-493, DOI: 10.1016/j.apcatb.2017.05.058. PDF

33) . E.A. Pillar and M.I. Guzman. Environmental Science and Technology (2017), 51, 4951-4959, DOI: 10.1021/acs.est.7b00232.

32) . A.J. Eugene and M.I. Guzman. Journal of Physical ÌÇÐÄvlog¹Ù·½Èë¿Ú A (2017), 121, 2924-2935, DOI: 10.1021/acs.jpca.6b11916.

31) . R. Zhou, K. Basu, H. Hartman, C.J. Matocha, S.K. Sears, H. Vali, and M.I. Guzman. Scientific Reports (2017), 7, 533. .

30) . N.L. Ng, S.S. Brown, A.T. Archibald, E. Atlas, R.C. Cohen, J.N. Crowley, D.A. Day, N.M. Donahue, J.L. Fry, H. Fuchs, R.J. Griffin, M.I. Guzman, H. Herrmann, A. Hodzic, Y. Iinuma, J.L. Jimenez, A. Kiendler-Scharr, B.H. Lee, D.J. Luecken, J. Mao, R. McLaren, A. Mutzel, H.D. Osthoff, B. Ouyang, B. Picquet-Varrault, U. Platt, H.O.T. Pye, Y. Rudich, R.H. Schwantes, M. Shiraiwa, J. Stutz, J.A. Thornton, A. Tilgner, B.J. Williams, R.A. Zaveri. Atmospheric ÌÇÐÄvlog¹Ù·½Èë¿Ú and Physics (2017), DOI: 10.5194/acp-17-2103-2017.

29) . A.J. Eugene, S.-S. Xia, and M.I. Guzman. Journal of Physical ÌÇÐÄvlog¹Ù·½Èë¿Ú A (2016), 120, 3817-3826, DOI: 10.1021/acs.jpca.6b00225.

28) . R. Zhou and M.I. Guzman. Journal of Physical ÌÇÐÄvlog¹Ù·½Èë¿Ú C (2016), 120, 7349-7357, DOI: 10.1021/acs.jpcc.5b12380, 2016.

27) E.A. Pillar, R. Zhou, and M.I. Guzman. Journal of Physical ÌÇÐÄvlog¹Ù·½Èë¿Ú A (2015), 119, 10349-10359, DOI: 10.1021/acs.jpca.5b07914.

26) . C.M. Boyd, J. Sanchez, L. Xu, A.J. Eugene, T. Nah, W.-Y. Tuet, M.I. Guzman, and N.L. Ng. Atmospheric ÌÇÐÄvlog¹Ù·½Èë¿Ú and Physics (2015), 15, 7497–7522, DOI: 10.5194/acp-15-7497-2015.

25) . E.A. Pillar, R.C. Camm, and M.I. Guzman. Environmental Science & Technology (2014), 48, 14352-14360, DOI: 10.1021/es504094x.

24) . R.-X. Zhou and M.I. Guzman. Journal of Physical ÌÇÐÄvlog¹Ù·½Èë¿Ú C (2014), 118, 11649-11656, DOI: 10.1021/jp4126039.

23) . T. Bartels-Rausch, H.-W. Jacobi, T.F. Kahan, J.L. Thomas, E.S. Thomson, J.P.D. Abbatt, M. Ammann, J.R. Blackford, H. Bluhm, C. Boxe, F. Domine, M.M. Frey, I. Gladich, M.I. Guzman, D. Heger, Th. Huthwelker, P. Klan, W.F. Kuhs, M.H. Kuo, S. Maus, S.G. Moussa, V.F. McNeill, J.T. Newberg, J.B.C. Pettersson, M. Roeselova, J.R. Sodeau. Atmospheric ÌÇÐÄvlog¹Ù·½Èë¿Ú and Physics (2014), 14, 1587-1633, DOI: 10.5194/acp-14-1587-2014. or PDF

22) . A.J. Eugene, S.-S. Xia, and M.I. Guzman. Proceedings of the National Academy of Science of the United States of America (2013), 110, E4274-E4275, DOI: 10.1073/pnas.1313991110.

21) . E.A. Pillar, M.I. Guzman, and J.M. Rodriguez. Environmental Science & Technology (2013), 47, 10971-10979, DOI: 10.1021/es401700h.

20) . V.F. McNeill, A.M. Grannas, J.P.D. Abbatt, M. Ammann, P. Ariya, T. Bartels-Rausch, F. Domine, D.J. Donaldson, M.I. Guzman, D. Heger, T.F. Kahan, P. Klan, S. Masclin, C. Toubin, D. Voisin. Atmospheric ÌÇÐÄvlog¹Ù·½Èë¿Ú and Physics (2012), 12, 9653-9678, DOI: 10.5194/acp-12-9653-2012.

19) . F. Ciucci, C. de Falco, M.I. Guzman, S. Lee, and T. Honda. Applied Physics Letters (2012), 100, 183106, DOI: 10.1063/1.4709483.

18) . M.I. Guzman, R.R. Athalye, and J.M. Rodriguez. Journal of Physical ÌÇÐÄvlog¹Ù·½Èë¿Ú A (2012), 116, 5428-5435, DOI: 10.1021/jp3011316.

17) . M.I. Guzman in Origins of Life: The Primal Selforganization. R. Egel et al. (eds.), Springer Verlag, Berlin-Heidelberg (2011), pp 85-105, DOI: 10.1007/978-3-642-21625-1_4, ISBN 978-3-642-21624-4.

16) . Y.J. Li, Q. Chen, M.I. Guzman, C.K. Chan, and S.T. Martin. Atmospheric ÌÇÐÄvlog¹Ù·½Èë¿Ú and Physics (2011), 11, 121-132, DOI: 10.5194/acp-11-121-2011.

15) From Prebiotic ÌÇÐÄvlog¹Ù·½Èë¿Ú to Metabolic Cycles. M.I. Guzman in . G.A. Lemarchand and G.Tancredi (ed.), (2010), pp. 223-247. ISBN 978-92-9089-163-5. Montevideo, UNESCO.

14) . M.I. Guzman and S.T. Martin. Chemical Communications (2010), 46, 2265-2267, DOI:10.1039/b924179e.

13) . A.G. Rincon, M.I. Guzman, M.R. Hoffmann, and A.J. Colussi. Journal of Physical ÌÇÐÄvlog¹Ù·½Èë¿Ú Letters (2010), 1, 368-373, DOI: 10.1021/jz900186e.

12) . A.G. Rincon, M.I. Guzman, M.R. Hoffmann, and A.J. Colussi. Journal of Physical ÌÇÐÄvlog¹Ù·½Èë¿Ú A (2009), 113, 10512-10520, DOI: 10.1021/jp904644n.

11) . M.I. Guzman and S.T. Martin. Astrobiology (2009), 9, 833-842, DOI:10.1089/ast.2009.0356.

10) . C. Menor-Salván, M. Ruiz-Bermejo, M.I. Guzman, S. Osuna-Esteban, S. Veintemillas-Verdaguer. ÌÇÐÄvlog¹Ù·½Èë¿Ú-A European Journal (2009), 15, 4411-4418, DOI: 10.1002/chem.200802656.

9) . M.I. Guzman and S.T. Martin. International Journal of Astrobiology (2008), 7, 271-278, DOI: 10.1017/S1473550408004291.

8) . A.M. Grannas, A.E. Jones, J. Dibb, M. Ammann, C. Anastasio, H. Beine, M. Bergin, J. Bottenheim, C.S. Boxe, G. Carver, J.H. Crawford, F. Domine, M.M. Frey, M.I. Guzman, D. Heard, D. Helmig, M.R. Hoffmann, R.E. Honrath, L.G. Huey, M. Hutterli, H.W. Jacobi, P. Klan, B. Lefer, J. McConnell, J. Plane, R. Sander, J. Savarino, P.B. Shepson, W.R. Simpson, J. Sodeau, R. von Glasgow, R. Weller, E.W. Wolff, T. Zhu. Atmospheric ÌÇÐÄvlog¹Ù·½Èë¿Ú and Physics (2007), 7, 4329-4373, DOI: 10.5194/acp-7-4329-2007.

7) . Guzman M.I., M.R. Hoffmann, and A.J. Colussi. Journal of Geophysical Research (2007), 112, D10123, DOI: 10.1029/2006JD007886.

6) . M.I. Guzman, L. Hildebrandt, A.J. Colussi, and M.R. Hoffmann. Journal of the American Chemical Society (2006), 128, 10621-10624, DOI: 10.1021/ja062039v.

5) . C. Robinson, C.S. Boxe, M.I. Guzman, A.J. Colussi, and M.R. Hoffmann. Journal of Physical ÌÇÐÄvlog¹Ù·½Èë¿Ú B (2006), 110; 7613-7616, DOI: 10.1021/jp061169n.

4) . M.I. Guzman, A.J. Colussi, and M.R. Hoffmann. Journal of Physical ÌÇÐÄvlog¹Ù·½Èë¿Ú A (2006), 110, 3619-3626, DOI: 10.1021/jp056097z.

3) . M.I. Guzman, A.J. Colussi, and M.R. Hoffmann. Journal of Physical ÌÇÐÄvlog¹Ù·½Èë¿Ú A (2006), 110; 931-935, DOI: 10.1021/jp053449t.

2) . SA Centeno, M.I. Guzman, A. Yamazaki-Kleps and C.O. Della Védova. Journal of the American Institute for Conservation (2004), 43, 139-150, DOI: 10.2307/4129649.

1) . M.B. Villecco, L.R. Hernandez, M.I. Guzman, C.A.N. Catalán, M.A. Bucio and P. Joseph-Nathan. Tetrahedron: Asymmetry (2001), 12 (21), 2947-2953, DOI: 10.1016/S0957-4166(01)00521-3.