“…Moreover, sPS is able to form different kinds of co-crystalline (clathrate) phases with a large number of guest molecules which can be incorporated in the cavities between the helices of the crystalline region of the and forms (Tarallo et al, 2010a(Tarallo et al, ,b, 2011. The clathrate forms are not only interesting for applications, when active guests can be incorporated in the sPS films, leading to advanced materials for optical and magnetic applications (Giordano et al, 2005;Stegmaier et al, 2005;Daniel et al, 2009;Rizzo et al, 2010), but may offer a unique advantage in the case when neutron scattering methods are used for the investigation of the microstructure and microdynamics of such materials; the neutron scattering length density (SLD) of the crystalline regions can be varied by loading D and H isotopologues of the guest molecules in the crystalline cages of the form and channels of the form while working with deuterated sPS matrix. This advantage has already been demonstrated in some previous small-angle neutron scattering (SANS) studies (Kaneko et al, 2013(Kaneko et al, , 2014.…”