Recent Advances in Microextraction Methods for Sampling and Analysis of Volatile Organic Compounds in Air: A Review

Document Type : Review

Authors

1 Center of Excellence for Occupational Health, Research Center for Health Sciences, School of Public Health, Hamadan University of Medical Sciences, Hamadan, Iran

2 Department of Chemical Engineering & Technology, Indian Institute of Technology (BHU), Varanasi 221005, India

Abstract

Human exposures to volatile organic compounds (VOCs) are associated with a wide range of health problems. Due to these adverse effects of VOCs on the human health, determination of trace levels of VOCs is very important for accurate assessment of indoor and outdoor exposure. Solid phase microextraction (SPME), needle trap device (NTD) and hollow fiber- liquid phase microextraction (HF-LPME) are increasingly used for accurate determination of VOCs in air. In this paper, authors have reviewed new developed forms of SPME, NTD and LPME techniques for the sampling and analysis of VOCs in air with a main focus on SPME coating fibers and NTD sorbents. The effects of some environmental and device parameters on SPME and NTD samplers are also reviewed. Moreover, several analytical parameters such as carryover effect, storage time, limit of detection (LOD) and limit of quantitation (LOQ) of these new technologies are discussed. Finally, the applicability, limitations and future trends of these methods are reviewed.

Keywords

References

[1]       A.K. Mathur, C, Majumder, S, Chatterjee, J. Hazard. Mater. 148 (2007) 64.
[2]       A. Kumar, I. Víden, Environ. Monit. Assess. 131 (2007) 301.
[3]       S. Hazrati, R. Rostami, M. Fazlzadeh, Sci. Total Environ. 524 (2015) 347.
[4]     M.R. Samarghandi, S.A. Babaee, M. Ahmadian, G. Asgari, F. Ghorbani Shahna, A. Poormohammadi, J. Res. Health Sci. 14 (2014) 227.
[5]       S. Hazrati, R. Rostami, M. Farjaminezhad, M. Fazlzadeh, Atmos. Environ. 132 (2016) 91.
[6]       S.K. Brown, Indoor Air. 12 (2002) 55-63.
[7]       M. Heidari, A. Bahrami, A.R. Ghiasvand, F.G. Shahna, A.R. Soltanian, Talanta. 101 (2012) 314.
[8]       L.K. Wang, N.C.P Ereira, Y.-T. Hung, Springer Vol. 1, 2004.
[9]       K. Demeestere, J. Dewulf, B. De Witte, H. Van Langenhove,. J. Chromatogr. A 1153 (2007) 130.    
[10]    S. Hellweg, E. Demou, M. Scheringer, T.E. McKone, K. Hungerbühler, Environ. Sci. Technol. 39 (2005) 7741. 
[11]    D.A. Lambropoulou, I.K. Konstantinou, T.A. Albanis, J. Chromatogr. A 1152 (2007) 70.
[12]    M. Heidari, A. Bahrami, A.R. Ghiasvand, F.G. Shahna, A.R. Soltanian, Anal. Chim. Acta 785 (2013) 67.
[13]    M.J.Z. Sakhvidi, A. Bahrami, A. Ghiasvand, H. Mahjub, L. Tuduri, Environ. Monit. Assess 184 (2012) 6483.
[14]    S.G. Attari, A. Bahrami, F.G. Shahna, M. Heidari, J. Environ. Health. Sci. Eng. 1 (2014) 12.
[15]    M.J. Zare Sakhvidi, A. Bahrami, A. Afkhami, A. Rafiei. Int. J. Environ. Anal. Chem. 92 (2012) 1365.
[16]    B. Zabiegała, A. Kot-Wasik, M. Urbanowicz, J. Namieśnik, Anal. Bioanal. Chem. 396 (2010) 273.
[17]    X.L. Cao, C.N. Hewitt, Environ. Technol. 12 (1991) 1055.
[18]    NIOSH Manual of Analytical Methods (NMAM), Fourth Edition. 3 (2003) 1.
[19]    S.C. Lee, M.Y. Chiu, K.F. Ho, S.C. Zou, X. Wang, Chemosphere 48 (2002) 375.
[20]    Z. Zhang, M.J. Yang, J. Pawliszyn, Anal. Chem. 66 (1994) 844A.
[21]    J. Pawliszyn, John Wiley & Sons, 1997.
[22]    C.L. Arthur, J. Pawliszyn. Anal. Chem. 62 (1990) 2145.
[23]    J. Pawliszyn, Royal Soc. Chem. 5 (1999).
[24]    S. Balasubramanian, S. Panigrahi, Food Bioprocess Tech. 4 (2011) 1.
[25]    W. Wardencki, P. Sowiński, J. Curyło, J. Chromatogragh A 984 (2003) 89.
[26]    C.C. Camarasu, J. Pharmaceut. Biomed. 23 (2000) 197.
[27]    F. Augusto, A.L.P. Valente, Trends Analyt. Chem. 21 (2002) 428.
[28]    C. Dietz, J. Sanz, C. Cámara. J. Chromatogr. A 1103 (2006) 183.
[29]    J.A Koziel, M. Odziemkowski, J. Pawliszyn. Anal. Chem. 73 (2001) 47.
[30]    J. Pawliszyn, Handbook of Solid Phase Microextraction. 1st Ed., Elsevier, 2011.
[31]    L. Tuduri, V. Desauziers, J. L. Fanlo, J. Chromatogr. Sci. 39 (2001) 521.
[32]    E.E. Stashenko, J.R. Martı́nez, Trends Analyt. Chem. 23 (2004) 553.
[33]    F. Mangani, R. Cenciarini, Chromatographia 41 (1995) 678.
[34]    T. Qin, X. Xu, T. Polak, V. Pacakova, K. Stulik, L. Jech, Talanta 44 (1997) 1683.
[35]    M.R. Ras, R.M. Marcé, F. Borrull, Environ. Monit. Assess. 161 (2010) 389.
[36]    V.H. Niri, I.-Y. Eom, F.R. Kermani, J. Pawliszyn, J. Sep. Sci. 32 (2009) 1075.
[37]    M. Heidari, A. Bahrami, A.R. Ghiasvand, M.R. Emam, F.G. Shahna, A.R. Soltanian, Talanta 131 (2015) 142.
[38]    H.L.  Lord,  W.  Zhan, J. Pawliszyn, Anal. Chim. Acta 677 (2010) 3.
[39]    N. Reyes-Garcés, G.A. Gómez-Ríos, É.A. Silva, J. Pawliszyn, J. Chromatogr. A 1300 (2013) 193.
[40]    J.M. Sanchez, J. Chromatogr. A 1369 (2014) 18.
[41]    M. Chai, J. Pawliszyn, Environ. Sci. Technol. 29 (1995) 693.
[42]    R. Jiang, J. Pawliszyn, Trends Analyt. Chem. 39 (2012) 245.
[43]    W.C. Hinds, John Wiley & Sons, 2012.
[44]    A. Wang, F. Fang, J. Pawliszyn, J. Chromatogr. A 1072 (2005) 127.
[45]    M.Á. Bello-López, M. Ramos-Payán, J.A. Ocaña-González, R. Fernández-Torres, M.  Callejón-Mochón, Anal. Lett. 45 (2012) 804.
[46]    J. Ee, H.K. Lee, K.E. Rasmussen, S. Pedersen-Bjergaard, Anal. Chim. Acta 624 (2008) 253.
[47]    A. Sarafraz-Yazdi, A. Amiri, Trends Analyt. Chem. 29 (2010) 1.
[48]    F. Ghamari, A. Bahrami, Y. Yamini, F.G. Shahna, A. Moghimbeigi, Anal. Chem. Insights 11 (2016) ACI.
[49]    A. Bahrami, F. Ghamari, Y. Yamini, F. Ghorbani Shahna, A. Moghimbeigi, Membranes 12 (2017) 8.
[50]    M. Rezaee, Y. Assadi, M.R. Millani, E. Aghaee, F. Ahmadi, S. Berijani, J. Chromatogr. A 1116 (2006) 1.
[51]    H. Prosen, Molecules 19 (2014) 6776.
[52]    S. Pedersen-Bjergaard, K.E. Rasmussen, Anal. Chem. 71 (1999) 2650.
[53]    A. Sarafraz-Yazdi, A.H. Amiri, Z. Es’haghi, Chemosphere 71.4 (2008) 671.
[54]    M.R. Payán, M.Á.B. López, R. Fernández-Torres, M. V. Navarro, M.C. Mochón, Talanta 79 (2009) 911.
[55]    X. Ma, M. Huang, Z. Li, J. Wu, J. Hazard. Mater. 194 (2011) 24.
[56]    E. Taheri, A. Bahrami, F.G. Shahna, M. Farhadian, Environ. Monit. Assess. 190 (2018) 479.
[57]    J.M. Vaz, Talanta 60 (2003) 687.
[58]    A. Sarafraz-Yazdi, A. Amiri, G. Rounaghi, H.E. Hosseini, J. Chromatogr. A 1218 (2011) 5757.
[59]    M. Wu, L. Wang, B. Zeng, F. Zhao, J. Chromatogr. A 1364 (2014) 45.
[60]     M.B. Gholivand, M. Shamsipur, M. Shamizadeh, R. Moradian, B. Astinchap, Anal. Chim. Acta 822 (2014) 30.
[61]    M.    Azenha,   E.   Schillinger,   E.   Sanmartin,   M.T. Regueiras, F. Silva, B. Sellergren, Anal. Chim. Acta 802 (2013) 40.
[62]    J.A. Koziel, M. Jia, A. Khaled, J. Noah, J. Pawliszyn, Anal. Chim. Acta 400 (1999) 153.
[63]    N. Riboni, J.W. Trzcinski, F. Bianchi, C. Massera, R. Pinalli, L. Sidisky, E. Dalcanale, M. Careri, Anal. Chim. Acta 905 (2016) 79.
[64]    M.J.Z. Sakhvidi, A. Bahrami, A. Ghiasvand, H. Mahjub, L. Tuduri, Anal. Lett. 45 (2012) 375.
[65]    E.N. Fuller, P.D. Schettler, J.C. Giddings, Ind. Eng. Chem. 58 (1966) 18.
[66]    S.G. Attari, A. Bahrami, F.G. Shahna, M. Heidari, J. Analyt. Chem. 70 (2015) 1192.
[67]    S.L. Chong, D. Wang, J.D. Hayes, B.W. Wilhite, A. Malik, J. Analyt. Chem. 69 (1997) 3889.
[68]    J. Pawliszyn, Trends Analyt. Chem. 14 (1995) 113.
[69]    Y.L. Fu, Y.L. Hu, Y.J. Zheng, G.K. Li., J. Sep. Sci.  29 (2006) 2684.
[70]    P. Trefz, S. Kischkel, D. Hein, E.S. James, J.K. Schubert, W. Miekisch, J. Chromatogr. A 1219 (2012) 29.
[71]    M. Heidari, A. Bahrami, A.R. Ghiasvand, F.G. Shahna, A.R. Soltanian, M. Rafieiemam, J. Sep. Sci. 38 (2015) 4225.
[72]    K. Elke, E. Jermann, J. Begerow, L. Dunemann, J. Chromatogr. A 826 (1998) 191.
[73]    D. Poli, M. Goldoni, M. Corradi, O. Acampa, P. Carbognani, E. Internullo, A. Casalini, A. Mutti, J. Chromatogr. B 878 (2010) 2643.
[74]    M. Llompart, K. Li, M. Fingas, J. Chromatogr. A 824 (1998) 53.
[75]    S. Svensson, M. Lärstad, K. Broo, A.C. Olin, J. Chromatogr. B 860 (2007) 86.
[76]    G. Preti, E. Thaler, C.W. Hanson, M. Troy, J. Eades, A. Gelperin, J. Chromatogr. B 877 (2009) 2011.
[77]    M.J. Zare Sakhvidi, A.R. Bahrami, A. Ghiasvand, H. Mahjub, L. Tuduri, Environ. Monit. Assess 185 (2013) 4933.
[78]    G. Zhang, L. Zou, H. Xu, Talanta 132 (2015) 528.
[79]    G. Attari, A. Bahrami, F. Ghorbani Shahna, M. Heidari, J. Occup. Health 13 (2016) 78.
[80]    A. Poormohammadi, A. Bahrami, M. Farhadian, F.G. Shahna, A. Ghiasvand, J. Chromatogr. A 1527 (2017) 33.
[81]    J. Cai, G. Ouyang, Y. Gong, J. Pawliszyn, J. Chromatogr. A 1213 (2008) 19.
[82]    A. Poormohammadi, A. Bahrami, A. Ghiasvand, F.G. Shahna, M. Farhadian, Microchem. J. 143 (2018) 127.
[83]    J.A. Koziel, J. Pawliszyn, J. Air Waste Manag Assoc. 51 (2001) 173.
[84]    J. Wang, L. Tuduri, M. Mercury, M. Millet, O. Briand, M. Montury. Environ. Pollut. 157 (2009) 365.
[85]    Y. Chen, J. Pawliszyn, Anal. Chem. 75 (2003) 2004.
[86]    E. Gallego, F.J. Roca, J.F. Perales, X. Guardino, Talanta 81 (2010) 916.
[87]    D. Djozan, Y. Assadi, S.H. Haddadi, Anal. Chem. 73 (2001) 4054.
[88]    J.    Namieśnik,    A.    Jastrzebska,    B.   Zygmunt,   J. Chromatogr. A 1016 (2003) 1.
[89]    S. Isetun, U. Nilsson, A. Colmsjö, R. Johansson. Anal. Bioanal. Chem. 378 (2004) 1847.
[90]     J.-F. Liu, N. Li, G.-B. Jiang, J.-M. Liu, J.Å. Jönsson, M.-J. Wen, J. Chromatogr. A 1066 (2005) 27.
[91]    M. Heidari, A. Bahrami, A. Ghiasvand, F. Ghorbani Shahna, A. Soltanian, M. Rafieiemam, J. Occup. Health. 11 (2014) 45.
[92]    B. Magnusson, Eurachem. (2014) 34.
[93]     L. Tajik, A. Bahrami, A. Ghiasvand, F.G. Shahna, Pol. J. Chem. Technol. 19 (2017) 9.
[94]    Z.M.J. Sakhvidi, A. Bahrami, A.R. Ghiasvand, H. Mahjub, L. Tuduri, J. Occup. Health  10 (2013) 35.
Analytical and Bioanalytical Chemistry Research
Volume 6, Issue 2
December 2019
Pages 253-269

Files

Share

How to cite

Statistics