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Article Abstract
Various applications of gallium telluride have been investigated, such as in optoelectronic devices, radiation detectors, solar cells, and semiconductors, owing to its unique electronic, mechanical, and structural properties. Among the various forms of gallium telluride (e.g., GaTe, GaTe, GaTe, and GaTe), we propose a gallium (III) telluride (GaTe)-based composite (GaTe-TiO-C) as a prospective anode for Li-ion batteries (LIBs). The lithiation/delithiation phase change mechanism of GaTe was examined. The existence of the TiO-C hybrid buffering matrix improved the electrical conductivity as well as mechanical integrity of the composite anode for LIBs. Furthermore, the impact of the C concentration on the performance of GaTe-TiO-C was comprehensively studied through cyclic voltammetry, differential capacity analysis, and electrochemical impedance spectroscopy. The GaTe-TiO-C electrode showed high rate capability (capacity retention of 96% at 10 A g relative to 0.1 A g) as well as high reversible specific capacity (769 mAh g after 300 cycles at 100 mA g). The capacity of GaTe-TiO-C was enhanced by the synergistic interaction of TiO and amorphous C. It thereby outperformed the majority of the most recent Ga-based LIB electrodes. Thus, GaTe-TiO-C can be thought of as a prospective anode for LIBs in the future.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9565750 | PMC |
| http://dx.doi.org/10.3390/nano12193362 | DOI Listing |
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