Bi2Se3 Nanolayer Growth on 2D Printed Graphene

We studied Bi2Se3 films grown by vapor deposition at 500 ? on layers of printed graphene (the low-cost variant of multigraphene film). Using twodimensional (2D)-printed graphene to manage the configuration of selective growth of Bi2Se3 films, in combination with capillary effect conditions, makes it possible to form continuous films with a thickness of 8 nm or more and crystallites several times larger than those grown without using the capillary effect. For Bi(2)Se(3)films with a thickness of 20-30 nm, the sheet resistance is 1-3 kCl/sq, the carrier density is similar to (2-4) x 10(12) cm(-2), and the electron mobility at room temperature is 1100-2400 cm2/Vs. The properties of layers grown on a printed graphene film are close to those obtained in the case of growth under the same conditions on CVD graphene. If the printed graphene layer contains residual organic additives, two-layer Bi2Se3/Bi2SeO2/G heterostructures with a conductivity of 0.3-0.9 kCl/sq and the similar values of carrier mobility are formed at the same growth regime. Heterostructures of Bi2Se3/G and Bi2Se3/Bi2SeO2 are promising for the formation of conducting layers with high charge carrier mobility and transparent electrodes for the IR range, as well as for efficient conversion of solar energy and other electronic and optical applications

Automated summary

This study investigates the growth of Bi2Se3 films on printed graphene using vapor deposition. By using 2D-printed graphene and the capillary effect conditions, it is possible to form continuous films with a thickness of 8 nm or more and larger crystallites. The properties of the films grown on printed graphene are similar to those grown on CVD graphene. Additionally, heterostructures with high carrier mobility and transparent electrodes can be formed if the printed graphene contains residual organic additives.