Acid-Assisted Soft Chemical Route for Preparing High-Quality Superconducting 2M-WS2

Song, Xiaoyu and Hoff, Brianna and Singha, Ratnadwip and Stiles, Joseph W. and Skorupskii, Grigorii and Khoury, Jason F. and Cheng, Guangming and Kamm, Franziska and Uzan, Ayelet J. and Dulovic, Stephanie and Wu, Sanfeng and Pielnhofer, Florian and Yao, Nan and Schoop, Leslie M. (2023) Acid-Assisted Soft Chemical Route for Preparing High-Quality Superconducting 2M-WS2. CHEMISTRY OF MATERIALS, 35 (14). pp. 5487-5496. ISSN 0897-4756, 1520-5002

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Abstract

2M-WS2 is a metastable, superconducting polymorphofthe transition metal dichalcogenide (TMD) WS2, comprisedof layers of face-sharing distorted WS6 octahedra. It ispredicted to host non-Abelian quantum states, promising for topologicalcomputing. Due to its thermodynamic instability, 2M-WS2 cannot be synthesized using solid-state synthesis. Rather, it requiresa top-down approach in which K+ is deintercalated fromK( x )WS(2); so far, this processhas been completed using a strong oxidizer, K2Cr2O7 in dilute H2SO4. A disadvantageof such an indirect synthesis is that the harsh reaction conditionmay cause the crystal quality to suffer. To date, no studies havebeen performed to optimize the synthesis or understand the chemicalnature of this reaction. In this study, we found that the K-deintercalationprocess from K x WS2 is spontaneous,and a non-oxidative acidic reaction environment is sufficient to facilitatethe oxidation of K x WS2 to 2M-WS2 while reducing H+ to H-2. By analyzingthe superconducting transition in the heat capacity, we found that2M-WS2 made using less aggressive methods has higher superconductingvolume fractions. We describe how to access the thermodynamicallyunfavorable superconducting 2M phase of WS2 as high-qualitycrystals.

Item Type: Article
Uncontrolled Keywords: TEMPERATURE; WS2; MOS2;
Subjects: 500 Science > 540 Chemistry & allied sciences
Divisions: Chemistry and Pharmacy > Institut für Anorganische Chemie > Chair Prof. Dr. Arno Pfitzner
Depositing User: Dr. Gernot Deinzer
Date Deposited: 14 Mar 2024 11:11
Last Modified: 14 Mar 2024 11:11
URI: https://pred.uni-regensburg.de/id/eprint/60080

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