Gas-Phase Technology and Microstructure of Fullerite Films
A.S. Berdinsky;Chun, Hui-Gon;Lee, Jing-Hyuk;Song, Yong-Hwa;Yu. V. Shevtsov;
Novosibirsk State Technical University;ReMM, School of Materials and Engineering, University of Ulsa;ReMM School of Materials and Engineering, University of Ulsa;ReMM School of Materials and Enginering, University of Ulsa;Institute of Inorganic Chemistry, SB RAS;
The technology of $C_{60}$ fullerite films preparation by means of gas-phase deposition and structure of fullerite films are described. A three-channel flow plant was used to obtain fullerite films. The films were deposited in the flow of inert gas under reduced pressure onto a cooled silicon or sapphire substrate placed inside the reaction chamber of the plant. The plant allows one to obtain the films of pure fullerenes and to synthesise the films from fullerene compounds and doped fullerenes. The structure of two types of films were investigated by FE-SEM and SEM techniques: pure fullerite films onto silicon and sapphire substrates as well as compound films were studied by FE-SEM technique. All samples have shown columnar structure with high level of porosity. The synthesis of films composed of fullerene and its compounds for use in electronics is demonstrated to be promising. For example, experiments confirm the possibility to use fullerite films in sensor electronics to produce humidity and thermal sensors. It is also possible to use the sensitivity of these films to isotropic pressure. The experiments with $C_{60}$-Cu-J films have shown quite strong dependence of their resistance on pressure of different sort of medium-gas that could be used in gas-sensitive sensors. The structure and preparation technology of resistive sensor based on fullerite films are described.bed.