The transition metal dichalcogenide TiSe2 has received signifcant research attention over the past four decades, in large part due to the uniqueness of its charge-ordered state. Different work has presented ways to suppress the charge density wave transition, vary low temperature resistivity by orders of magnitude, and stabilize magnetic or superconducting states. Here we give the results of a new synthesis technique whereby samples were grown in a an argon gas environment at pressures as high as 180 bar. Above 100 K, the properties of these samples are unchanged from previous reports, but a hysteretic resistance region that begins around 80 K accompanied by insulating low temperature behavior are distinct from anything previously observed. This new feature is linked to a decrease in carrier concentration and may allow access to a nonmetallic ground state in a material long speculated to be an excitonic insulator.
Published in: "arXiv Material Science".