Energetics of carbon and nitrogen impurities and their interactions with vacancy in vanadium |
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Affiliation: | 1. School of Physics and State Key Laboratory of Crystal Materials, Shandong University, Jinan 250100, China;2. Department of Physics, Yantai University, Yantai 264005, China;3. School of Mechanical & Automotive Engineering, Liaocheng University, Liaocheng 252059, China |
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Abstract: | We studied the energetic behaviors of interstitial and substitution carbon (C)/nitrogen (N) impurities as well as their interactions with the vacancy in vanadium by first-principles simulations. Both C and N impurities prefer the octahedral site (O-site). N exhibits a lower formation energy than C. Due to the hybridization between vanadium-d and N/C-p, the N-p states are located at the energy from-6.00 eV to-5.00 eV, which is much deeper than that from-5.00 eV to-3.00 eV for the C-p states. Two impurities in bulk vanadium, C-C, C-N, and N-N can be paired up at the two neighboring O-sites along the <111> direction and the binding energies of the pairs are 0.227 eV, 0.162 eV, and 0.201 eV, respectively. Further, we find that both C and N do not prefer to stay at the vacancy center and its vicinity, but occupy the O-site off the vacancy in the interstitial lattice in vanadium. The possible physical mechanism is that C/N in the O-site tends to form a carbide/nitride-like structure with its neighboring vanadium atoms, leading to the formation of the strong C/N-vanadium bonding containing a covalent component. |
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Keywords: | vanadium carbon/nitrogen vacancy first-principles |
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