Toward Perfect Surfaces of Transition Metal Dichalcogenides with Ion Bombardment and Annealing Treatment.
Wan-Hsin ChenNaoya KawakamiJing-Wen HsuehLai-Hsiang KuoJiun-Yu ChenTing-Wei LiaoChia-Nung KuoChin-Shan LueYu-Ling LaiYao-Jane HsuDer-Hsien LienChenming HuJyh-Pin ChouMeng-Fan LuoChun-Liang LinPublished in: ACS applied materials & interfaces (2023)
Layered transition metal dichalcogenides (TMDs) are two-dimensional materials exhibiting a variety of unique features with great potential for electronic and optoelectronic applications. The performance of devices fabricated with mono or few-layer TMD materials, nevertheless, is significantly affected by surface defects in the TMD materials. Recent efforts have been focused on delicate control of growth conditions to reduce the defect density, whereas the preparation of a defect-free surface remains challenging. Here, we show a counterintuitive approach to decrease surface defects on layered TMDs: a two-step process including Ar ion bombardment and subsequent annealing. With this approach, the defects, mainly Te vacancies, on the as-cleaved PtTe 2 and PdTe 2 surfaces were decreased by more than 99%, giving a defect density <1.0 × 10 10 cm -2 , which cannot be achieved solely with annealing. We also attempt to propose a mechanism behind the processes.