In contrast to the studies referred

In contrast to the studies referred to in the EFSA opinion we
have chosen low density polyethylene (LDPE) as polymer
matrix which is generally known to show up the highest
diffusion characteristics among usual food contact polymers.
TiN was chosen as model NP for the following: the almost
spherical structure of primary particles (Guo et al., 2010)
facilitates diffusion through a polymer matrix, whereas the
aggregated structure of TiN is typical for many other NMs, like
carbon black or synthetic amorphous silica, too (Bugnicourt,
Galy, Ge´rard, Boue´ , & Barthel, 2007; Flo¨ rke et al., 2012; ICBA,
2004; Voll & Kleinschmit, 2010). Furthermore, and highly
important, by using element specific techniques like inductively
coupled plasma mass spectrometry (ICP-MS) migration
samples can be analyzed for titanium very specifically and at
low detection limits. For migration mechanistic interest the
LDPE host polymer was spiked with 3 different levels of TiN
NPs to explore whether concentrations dependencies can be
found. By using different food simulants in the migration
study and severe storage conditions a wide range of practiceoriented
applications were covered. For further plausibilisa-
tion of the experimental results and in support of the any
further generalization of migration prediction also for other
NPs/polymer systems the intention was to establish a general
NP migration model based on currently recognized diffusion
models for conventional polymer additives.