Authors | سمیه استکی,روح اله فرقدان |
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Journal | Physical Chemistry Chemical Physics |
Page number | 12035 |
Volume number | 26 |
IF | ثبت نشده |
Paper Type | Full Paper |
Published At | 2024-03-22 |
Journal Grade | Scientific - research |
Journal Type | Electronic |
Journal Country | Iran, Islamic Republic Of |
Journal Index | SCOPUS |
Abstract
This study investigates the impact of hydrogen impurities on the spin-dependent thermoelectric properties of zigzag graphene nanoribbons (ZGNRs) through density functional theory and the Landauer–Büttiker formula. Hydrogenation induces a net magnetism with a localized spin-dependent band around the Fermi energy in ZGNRs with different spin configurations, such as antiferromagnetic and ferromagnetic states. The results reveal spin-semiconducting behavior with a tunable energy gap and fully spin-polarized states in certain energy ranges. Application of a thermal gradient induces a thermal spin current, leading to the emergence of the spin Seebeck effect (SSE). By strategically placing a single hydrogen atom in various positions within the ZGNRs, we demonstrate that the hydrogen impurity's location significantly influences the spin-dependent thermoelectric properties, offering opportunities for enhanced thermoelectric performance through engineering. The observed spin thermocurrent and SSE in different impurity locations, considering both ferromagnetic and antiferromagnetic spin configurations, highlight the potential of hydrogenated ZGNRs in spin-dependent thermoelectric devices.
tags: Hydrogen impurity, thermoelectric, zigzag graphene nanoribbons, spin Seebeck effect