Current-Voltage Characteristics of Quasi-1D Monoclinic NbS<sub>3</sub>-V Devices: Signatures of the Charge Density Wave Transistions

Adane Geremew; Guanxiong Liu; Bishwajit Debnath; Ece Aytan; Mathew Bloodgood; Tina Salguero; Roger Lake; Alexander Balandin

Current-Voltage Characteristics of Quasi-1D Monoclinic NbS₃-V Devices: Signatures of the Charge Density Wave Transistions

ORAL

Abstract

A strong interest in quasi 2D and quasi 1D Van der Waals materials has led to a renewed attention to layered materials with the charge density wave (CDW) effects. The switching between CDW phases can be utilized for electronic applications. This explains the motivations behind the search for new polymorphs of materials with CDW properties near room temperature. We fabricated devices on recently discovered polymorph of niobium trisulfide, NbS₃-V. The material has been prepared by the CVT method. The devices were fabricated using the shadow mask on exfoliated NbS₃-V. At T=290 K, we observed two orders-of-magnitude reduction in the electrical resistance. The effect was attributed to the CDW phase transition. This conclusion is supported by ab initio calculations of the phonon dispersion, X-ray diffraction and Raman spectroscopy. M. A. Bloodgood et. al., APL - Materials (accepted 2017).

March 8, 2018, 7:42 PM – March 8, 2018, 7:54 PM

Presenters

Adane Geremew

Electrical and computer Engineering, Univ of California - Riverside

Authors

Adane Geremew

Electrical and computer Engineering, Univ of California - Riverside
Guanxiong Liu

Electrical and computer Engineering, Univ of California - Riverside, Electrical and Computer Engineering, University of California, Riverside, University of California Riverside
Bishwajit Debnath

Electrical and computer Engineering, Univ of California - Riverside, Electrical and Computer Engineering, University of California, Riverside, Department of Electrical and Computer Engineering, University of California, Riverside, Department of Electrical and Computer Engineering, Univ of California - Riverside, Electrical and Computer Engineering, University of California Riverside
Ece Aytan

Electrical and computer Engineering, Univ of California - Riverside, Department of Electrical and Computer Engineering, University of California, Riverside, Electrical and Computer Engineering, University of California, Riverside, Material Science and Engineering, University of California Riverside
Mathew Bloodgood

Chemsitry, University of Georgia, Department of Chemistry, University of Georgia
Tina Salguero

Chemsitry, University of Georgia, Department of Chemistry, University of Georgia
Roger Lake

Electrical and computer Engineering, Univ of California - Riverside, Department of Electrical and Computer Engineering, University of California, Riverside, University of California, Riverside, Univ of California - Riverside, Electrical and Computer Engineering, University of California, Riverside, University of Califoria Riverside, University of California Riverside, Department of Electrical and Computer Engineering, Univ of California - Riverside, Electrical and Computer Engineering, University of California Riverside
Alexander Balandin

Electrical and Computer Engineering , University of California, Electrical and Computer Engineering, University of California Riverside, Electrical and computer Engineering, Univ of California - Riverside, Department of Electrical and Computer Engineering/Materials Science and Engineering Program, University of California, Riverside, Department of Electrical and Computer Engineering, University of California, Riverside, Electrical and Computer Engineering, University of California, Riverside, University of California Riverside