Facile High-Yield Growth of One-Dimensional van der Waals Ta<sub>2</sub>Pd<sub>3</sub>Se<sub>8</sub> via Chemical Vapor Transport Using PdCl<sub>2</sub> as a Transport Agent
Xiaojie Zhang, Jinsu Kang, Kyung Hwan Choi, Jiho Jeon, Byung Joo Jeong, Hyeon‐Seok Bang, Hyung‐Suk Oh, Jongwoo Lim, Jae-Hyuk Park, Jae‐Hyun Lee, Hak Ki Yu, Jae‐Young Choi
Abstract
Chemical vapor transport (CVT) is a commonly used method for growing single crystals. Halogens and their compounds are widely employed as transport agents owing to their low sublimation points. To increase the yield of produce, this study explored the species type and amount of transport agents as well as the synthesis temperature and time to achieve the maximum optimization of the synthesis process of Ta 2 Pd 3 Se 8 nanowires. Four transport agents, namely, PdCl 2, PdBr 2, I 2, and Se, were thermodynamically analyzed and compared, and PdCl 2 was deemed the most suitable agent for Ta 2 Pd 3 Se 8 field-effect transistor applications. The high current on/off ratio of approximately 10 5 and mobility of 13.8 cm 2 V –1 s –1 obtained for the Ta 2 Pd 3 Se 8 nanowires via the improved CVT method were further confirmed by analyzing their electrical properties. Additionally, a method for selecting the optimal transport agent, amount of transport agent, and temperature and time of the CVT reaction is presented for growing single crystals with maximum yields.