ABSTRACT
Graphene is considered to be the most “hot” material of recent years due to its numerous properties (mechanical, optical, environmental, etc.). The leader of graphene science is Konstantin Novoselov, who successfully isolated and characterized an exfoliated graphene mono-layer with various techniques. One of the most important derivatives of graphene is the oxidized form, graphene oxide. In order to prepare a series of nanographene oxide-coated titanium (NGOT) composites with different contents of NGO, TiO2 was mixed with various amounts of NGO-300. Wang et al. prepared nanographene (NG) sheets according to the burn-quench method. In a study by Zhang et al., the preparation of NG mesoporous architectures was achieved by using a burn-quench method. A thiolated NG was used to increase the efficiency and the stability of Perovskite solar cells by Cao et al. According to the study of Jing Zhao et al., a remote plasma enhanced chemical vapor deposition was used in order to grow NG films on fluor-phlogopite mica.
