AI Article Synopsis
- The Ta-N chemical system includes compounds like metallic and semiconducting TaN that are promising for uses in microelectronics, solar energy, and catalysis.
- Tantalum sesquinitride (TaN) has an unclear status due to its intermediate composition and metastability, leading to unknown physical properties.
- Reactive magnetron sputtering deposition reveals that oxygen plays a crucial role in the synthesis and electronic properties of TaN, allowing for adjustments like ammonia annealing to enhance conductivity and tailor its optoelectronic characteristics.
Article Abstract
The binary Ta-N chemical system includes several compounds with notable prospects in microelectronics, solar energy harvesting, and catalysis. Among these, metallic TaN and semiconducting TaN have garnered significant interest, in part due to their synthetic accessibility. However, tantalum sesquinitride (TaN) possesses an intermediate composition and largely unknown physical properties owing to its metastable nature. Herein, TaN is directly deposited by reactive magnetron sputtering and its optoelectronic properties are characterized. Combining these results with density functional theory provides insights into the critical role of oxygen in both synthesis and electronic structure. While the inclusion of oxygen in the process gas is critical to TaN formation, the resulting oxygen incorporation in structural vacancies drastically modifies the free electron concentration in the as-grown material, thus leading to a semiconducting character with a 1.9 eV bandgap. Reducing the oxygen impurity concentration via post-synthetic ammonia annealing increases the conductivity by seven orders of magnitude and yields the metallic characteristics of a degenerate semiconductor, consistent with theoretical predictions. Thus, this inverse oxygen doping approach - by which the carrier concentration is reduced by the oxygen impurity - offers a unique opportunity to tailor the optoelectronic properties of TaN for applications ranging from photochemical energy conversion to advanced photonics.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8186396 | PMC |
| http://dx.doi.org/10.1039/d1mh00017a | DOI Listing |
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