| 1 | Hill, M. J.: Nitrosamines, VCH Verlagsgesellschaft 1988 |
| 2 | U.S. Department of Health and Human Services: Nitrosamines, Report on Carcinogens, 14. Ausgabe, 2016, U.S. Department of Health and Human Services |
| 3 | Douglass, M.L.; Kabacoff, B.L.; Anderson, G.A.; Cheng, M.C.: The chemistry of nitrosamine formation, inhibition and destruction; J. Soc. Cosmet. Chem., 1978, S. 581–606 |
| 4 | Spiegelhalder, B.; Eisenbrand, G.; Preussmann, R.: Contamination of Amines with N-Nitrosamines; Angewandte Chemie, 1978, S. 367–368 |
| 5 | Nitrosamines, Données technico-économiques sur les substances chimiques en France DRC-14-136881-01291A, INERIS 2014, S. 12 |
| 6 | Bontoyan, W.R.; Law, M.W.; Wright Jr., D.P.: Nitrosamines in Agricultural and Home-Use Pesticides, J. Agric. Food. Chem., 1979, S. 631 ff. |
| 7 | Venkatesan, A.K.; Pycke, F.G.; Halden, R.U.; Detection and Occurence of N-Nitrosamines in Arcived Biosolids from the Targeted National Sewage Sludge, Survey of U.S. Environmental Protection Agency; Environ. Sci. Technol, 2014, S. 5085–5092 |
| 8 | Controlling the Formation of Nitrosamines During Water Treatment; Water Research Foundation, EPA, 2015, SSBN 978-1-60573-217-6 |
| 9 | Choi, J. and R. L. Valentine. 2001. Formation of N-nitrosodimethylamine (NDMA) from reaction of monochloramine: a new disinfection by-product; Water Research., 2001, S. 817–824 |
| 10 | Brain KR.; Walters KA; James VJ; Dressler WE; Howes D., Kelling CK., Moloney SJ., Gettings SD: Percutaneous penetration of dimethyl-nitrosamine through human skin in vitro: application from cosmetic vehicles; Food Chem Toxicol., 1995, S. 315–322 |
| 11 | Voice, A.; Hill, A.; Fine, N. A.; Rochelle, G.T.: Nitrosamine formation and mitigation in blended amines for CO2 capture; International Journal Greenhouse Gas Control, 2015, S. 329–334 |
| 12 | Jira, W.; Chemische Vorgänge beim Pökeln und Räuchern; Mitteilungsblatt Bundesanstalt für Fleischforschung, 2004, S. 27–38 |
| 13 | Etienne, M.; Nantes, I.: Volatile amines as criteria for chemical quality assesment, Seafoodplus, Projektbericht 6.3 France 2005 |
| 14 | Brain KR1, Walters KA, James VJ, Dressler WE, Howes D, Kelling CK, Moloney SJ, Gettings SD: Percutaneous penetration of dimethylnitrosamine through human skin in vitro: application from cosmetic vehicles; Food Chem Toxicol. 1995; S. 315–322 |
| 15 | Franz TJ1, Lehman PA, Franz SF, North-Root H, Demetrulias JL, Kelling CK, Moloney SJ, Gettings SD: Percutaneous penetration of N-nitrosodiethanolamine through human skin (in vitro): comparison of finite and infinite dose applications from cosmetic vehicles; Fundam Appl Toxicol., 1993, S. 213-221 |
| 16 | DGUV Information 209-047 Nitrose Gase beim Schweißen und verwandten Verfahren, 2017 |
| 17 | Daniel L. McCurry, Krasner, S.W., Mitch W.A.: Control of nitrosamines during non-potable and de facto waste-water reuse with medium pressure ultraviolet light and preformed monochloramine; Environ. Sci.: Water Res. Technol., 2016, S. 502–510 |
| 18 | Bartzatt, R.; Nagel, D.: Removal of nitrosamines from waste water by potassium ferrate oxidation; Arch. Environ. Health., 1991, S. 313–315 |
| 19 | Sansone, E.B.; Tewari, Y.B.; The permeability of labora-tory gloves to selected nitrosamines; IARC Scientific Publication 19, 1978, S. 517–529 |
| 20 | Gough, T.A.; Webb, K.S.; McPhail, M.F.: Diffusion of nitrosamines through protective gloves; IARC Scientific Publication 19, 1978, S. 531–534 |