A theoretical investigation of the diffusion contribution to thermopower, S_d, and the electronic thermal conductivity, k_e, of semiconducting armchair graphene nanoribbons (GNRs) is made for T ≤ 300 K. Considering the electrons to be scattered by edge roughness, impurities and deformation-potential coupled acoustic phonons and optical phonons, expressions for S_d and k_e are obtained. Numerical calculations of S_d and k_e, as functions of temperature and linear carrier density, bring out the relative importance of the contributing scattering mechanisms. A GNR of width 5 nm, supporting an electron density 2 x 10~8 m~(-1) is found to exhibit room temperature values of S_d and k_e as 42 μV/K and 26.5 W/mK, respectively. A decrease in armchair GNR width, is found to enhance S_d and reduce k_e. The effect of varying the electron density is to increase their magnitude when Fermi energy moves into the second subband. An analysis of thermopower and thermal conductivity data in clean armchair GNR samples will enable better understanding of the electron-phonon interaction.
展开▼
机译:对T≤300 K的半导体扶手椅石墨烯纳米带(GNR)的扩散对热能的贡献S_d和电子热导率k_e进行了理论研究。考虑到电子被边缘粗糙度,杂质和变形所散射,获得势耦合的声子和光子,得到S_d和k_e的表达式。 S_d和k_e的数值计算,作为温度和线性载流子密度的函数,揭示了贡献散射机制的相对重要性。发现支持电子密度为2 x 10〜8 m〜(-1)的5 nm宽的GNR的室温值S_d和k_e分别为42μV/ K和26.5 W / mK。发现扶手椅GNR宽度的减小增强了S_d并减小了k_e。当费米能量进入第二个子带时,改变电子密度的作用是增加其幅度。对干净的扶手椅式GNR样品中的热功率和热导率数据进行分析将有助于更好地理解电子-声子相互作用。
展开▼
