Remote heteroepitaxy of atomic layered hafnium disulfide on sapphire through hexagonal boron nitride

Two-dimensional (2D) heterostructures have attracted a great deal of attention due to their novel phenomena arising from the complementary properties of their constituent materials, and provide an ideal platform for exploring new fundamental research and realizing technological innovation. Here, for the first time, we report the formation of high quality HfS 2 /h-BN heterostructures by the remote heteroepitaxy technique, in which the large-area single-crystal HfS 2 layers were epitaxially grown on c -plane sapphire through a polycrystalline h-BN layer via chemical vapor deposition. It is found that c -sapphire substrates can penetrate monolayer and bilayer h-BN to remotely handle the epitaxial growth of HfS 2 . Benefitting from the high crystal quality of HfS 2 epilayers and the weak interface scattering of HfS 2 on h-BN, the HfS 2 photodetectors demonstrate excellent performance with a high on/off ratio exceeding 10 5 , an excellent photoresponsivity up to 0.135 A W −1 and a high detectivity of over 10 12 Jones. Furthermore, the HfS 2 /h-BN heterostructures prepared by the remote epitaxy can be rapidly released and transferred to a substrate of interest, which opens a new pathway for large-area advanced wearable electronics applications. Remote heteroepitaxy of single-crystal HfS 2 on sapphire through h-BN is first realized and can be extended to other 2D heterostructures.