**Biological Contamination of Air in Indoor Spaces**

Anca Maria Moldoveanu

[23] K. Nagato, Y. Matui, T. Miyata, T. Yamauchi. An analysis of the evolution of negative ions produced by a corona ionizer in air. Int. J. Mass Spectrom 2006; 248 (3) 142-147.

[24] K. Sekimoto. Influence of needle voltage on the formation of negative core ions using atmospheric pressure corona discharge in air. Int. J. Mass Spectrom 2007; 261 (1)

[25] Charles J. Weschler. New Directions: Ozone-initiated reaction products indoors may be more harmful than ozone itself. Atmospheric Environment 2004; 38 5715–5716. [26] William W. Nazaroff, Charles J. Weschler. Cleaning products and air fresheners: ex‐ posure to primary and secondary air pollutants. Atmospheric Environment 2004; 38

[27] U.S. Environmental Protection Agency, Office of Air and Radiation, Office of Air Quality Planning and Standards. Regulatory Impact Analysis -Final National Ambi‐

[28] F. M. Gabler, J. L. Smilanick, M. F. Mansour, H. Karaca. Influence of fumigation with high concentrations of ozone gas on postharvest gray mold and fungicide residues

[29] B. Eliasson, M Hirth and U. Kogelschatz. Ozone synthesis from oxygen in dielectric

[30] H. S. Ahn, N. Hayashi, S. Ihara and C. Yamabe. Ozone Generation Characteristics by Superimposed Discharge in Oxygen-Fed Ozonizer. J. Appl. Phys 2003; 6578- 6583. [31] P.A. Schulte, M. Boeniger, J.T. Walker, S.E. Schober, M.A. Pereira, D.K. Gulati, J.P. Wojciechowski, A. Garza, R. Froelich, G. Strauss, W.E. Halperin, R. Herrick and J. Griffith. Biologic markers in hospital workers exposed to low levels of ethylene ox‐

on table grapes. Postharvest Biology and Technology 2010; 55 85-90.

barrier discharges. J. Phys. D: Appl. Phys. 1987; 20 (11) 1421-1437.

ide. Mutation Research/Genetic Toxicology 1992; 278 237-251.

38-44.

488 Current Air Quality Issues

2841–2865.

ent Air Quality Standard for Ozone-. 2011.

Additional information is available at the end of the chapter

http://dx.doi.org/10.5772/59727
