Growth mechanisms of solution-grown one-dimensional semiconductor structures on patterned substrates

Sponsor: Czech Science Foundation

Principal investigator: Jan Grym, Ph.D.

Members: Roman Yatskiv, Ph.D.; Jan Vaniš, Ph.D.; Ondřej Černohorský Ph.D.; Stanislav Tiagulskyi, Ph.D.; Hana Faitová, MSc.; Šárka Kučerová, MSc.; Marie Hamplová, MSc.

From: 2017-01-01

To: 2019-12-31


We investigate the growth mechanisms of hydrothermally prepared ZnO nanorod arrays on patterned substrates in continuous-flow reactors. Unlike conventional batch reactors, in the continuous-flow reactors the solution supersaturation can be accurately controlled, which allows for the comparison of experimental results with fundamental crystal growth theories and for the identification of the growth mechanisms. The growth mechanisms and growth conditions are correlated with structural, electrical, and optical properties of the nanorods. Ordered periodic arrays of ZnO nanorods are grown on substrates patterned by electron and ion beams and the impact of the pattern geometry on their growth is studied.

IPE carries out fundamental and applied research in the scientific fields of photonics, optoelectronics and electronics. In these fields, IPE generates new knowledge and develops new technologies.

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