Realization of Multiple Charge-Density Waves in NbTe 2 at the Monolayer Limit.

Layered transition-metal dichalcogenides down to the monolayer (ML) limit provide a fertile platform for exploring charge-density waves (CDWs). Here, we experimentally unveil the richness of the CDW phases in ML-NbTe 2 for the first time. Not only the theoretically predicted 4 × 4 and 4 × 1 phases but also two unexpected 28 × 28 and 19 × 19 phases are realized. For such a complex CDW system, we establish an exhaustive growth phase diagram via systematic efforts in the material synthesis and scanning tunneling microscope characterization. Moreover, the energetically stable phase is the larger-scale order ( 19 × 19 ), which is surprisingly in contradiction to the prior prediction (4 × 4). These findings are confirmed using two different kinetic pathways: i.e., direct growth at proper growth temperatures ( T ) and low- T growth followed by high- T annealing. Our results provide a comprehensive diagram of the "zoo" of CDW orders in ML-NbTe 2 .