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Recently we have proposed a novel, scalable and simple method to obtain highly stable continuous gold nanoparticle (AuNPs) films at various liquid|liquid interfaces (LLIs).[1] Only vigorous shaking of aqueous phase containing AuNPs with organic phase containing tetrathiafulvalene species is required. The method allows creating both sub- and multilayer self-healing films (Fig.1A). They may be applied for liquid optical filters and mirrors with tunable properties (Fig.1C), as well in biphasic SERS and microdroplets encapsulation to create containers. Also, gold nanoparticles at LLIs may be charged and discharged by redox couples in adjunct phases.[2] Thus, it open a new venue to facilitated electron transfer across LLIs and interfacial electrocatalysis (Fig.1B). Figure 1: A) Stepwise increasing of AuNP coverage at water|1,2dichloroethane (1, 2, 4, 6, 8 and 35 ml of 38 nm AuNP solution). B) Electrocatalysis of O2 reduction by decamethylferrocene (DMFc) on AuNPs at water|trifluorotoluene interface. C) Tuneable optical properties to create filters and mirrors at water|1,2dichloroethane interface: UV-Vis-IR spectra and corresponding photos. References: [1] E.Smirnov et al, ACSNano, DOI: 10.1021/nn503644v [2] M.D.Scanlon et al, Chem.Sci., DOI: 10.1039/c5sc00461f