Journal
CHEMICAL SOCIETY REVIEWS
Volume 47, Issue 19, Pages 7203-7212Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c8cs00598b
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Funding
- College of Engineering and School of Industrial Engineering at Purdue University
- Oak Ridge Associated Universities (ORAU) Junior Faculty Enhancement Award Program
- National Science Foundation [CMMI-1663214, CNS-1726865]
- Army Research Office [W911NF-15-1-0574, W911NF-17-1-0573]
- NSF/AFOSR 2DARE Program
- SRC
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Tellurium (Te) has a trigonal crystal lattice with inherent structural anisotropy. Te is multifunctional, e.g., semiconducting, photoconductive, thermoelectric, piezoelectric, etc., for applications in electronics, sensors, optoelectronics, and energy devices. Due to the inherent structural anisotropy, previously reported synthetic methods predominantly yield one-dimensional (1D) Te nanostructures. Much less is known about 2D Te nanostructures, their processing schemes, and their material properties. This review focuses on the synthesis and morphology control of emerging 2D tellurene and summarizes the latest developments in understanding the fundamental properties of monolayer and few-layer tellurene, as well as the recent advances in demonstrating prototypical tellurene devices. Finally, the prospects for future research and application opportunities as well as the accompanying challenges of 2D tellurene are summarized and highlighted.
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