Comparison of the amorphous/crystalline states of films made by oxidative self-polymerization and vacuum thermal evaporation using dopamine hydrochloride as a precursor

Abstract

The creation of carbon-based two-dimensional materials employing dopamine (DA) and polydopamine (PDA) as precursors is a fascinating and difficult research field [1, 2]. Due to its gentle reactions, high modification efficiency, excellent adhesion characteristics, and flexibility, PDA, which was inspired by mussel adhesion proteins, has a wide range of applications in nanocomposites [3-5]. In this study, films made by vacuum evaporation were found to 1) have a crystalline state compared to films created by oxidative self-deposition on the surface of silicon-based materials, and 2) have a higher bond stretching of the sp2 atom pair of the C atom (G-band) following carbonization.