Synthesis of Atomically Thin 1T‐TaSe<sub>2</sub> with a Strongly Enhanced Charge‐Density‐Wave Order
Hong Wang, Yu Chen, Chao Zhu, Xuewen Wang, Hongbo Zhang, Siu Hon Tsang, Hongling Li, Jinjun Lin, Ting Yu, Zheng Liu, Edwin Hang Tong Teo
Abstract
Abstract Bulk 1T‐TaSe 2 as a charge‐density‐wave (CDW) conductor is of special interest for CDW‐based nanodevice applications because of its high CDW transition temperature. Reduced dimensionality of the strongly correlated material is expected to result in significantly different collective properties. However, the growth of atomically thin 1T‐TaSe 2 crystals remains elusive, thus hampering studies of dimensionality effects on the CDW of the material. Herein, chemical vapor deposition (CVD) of atomically thin TaSe 2 crystals is reported with controlled 1T phase. Scanning transmission electron microscopy suggests the high crystallinity and the formation of CDW superlattice in the ultrathin 1T‐TaSe 2 crystals. The commensurate–incommensurate CDW transition temperature of the grown 1T‐TaSe 2 increases with decreasing film thickness and reaches a value of 570 K in a 3 nm thick layer, which is 97 K higher than that of previously reported bulk 1T‐TaSe 2 . This work enables the exploration of collective phenomena of 1T‐TaSe 2 in the 2D limit, as well as offers the possibility of utilizing the high‐temperature CDW films in ultrathin phase‐change devices.