Phase transitions via electron doping in WTe$_2$

WTe2 is a multifunctional quantum material exhibiting numerous emergent phases in which the tuning of the carrier density plays an important role. Here we demonstrate two non-monotonic changes in the electronic structure of WTe2 upon in-situ electron doping, realizing occupation near the chemical potential as a pathway for tuning structure of two-dimensional (2D) materials. The first phase transition is interpreted in terms of a shear displacement of the top layer, which realizes a local crystal structure not normal found in bulk WTe2. The second phase transition arises from interactions between surface-dopant bands and the WTe2 surface.