Kumbhakar Shreya, Maji Tuhin Kumar, Tongbram Binita, Mandal Shinjan, Soundararaj Shri Hari, Debnath Banashree, T Phanindra Sai, Jain Manish, Krishnamurthy H R, Pandey Anshu, Ghosh Arindam
Department of Physics, Indian Institute of Science, Bangalore, India.
Materials Science and Engineering, University of California Riverside, Riverside, CA, USA.
Nat Commun. 2025 Jan 2;16(1):61. doi: 10.1038/s41467-024-55435-z.
Electrical resistivity in good metals, particularly noble metals such as gold (Au), silver (Ag), or copper, increases linearly with temperature (T) for T > Θ, where Θ is the Debye temperature. This is because the coupling (λ) between the electrons and the lattice vibrations, or phonons, in these metals is weak, with λ ~ 0.1-0.2. In this work, we outline a nanostructuring strategy of crystalline Au where this concept of metallic transport breaks down. We show that by embedding a distributed network of ultra-small Ag nanoparticles (AgNPs) of radius ~ 1-2 nm inside a crystalline Au shell, the electron-phonon interaction can be enhanced, with an effective λ as high as ≈ 20. With increasing AgNP density, the electrical resistivity deviates from T-linearity and approaches a saturation to the Mott-Ioffe-Regel scale ρ ~ ha/e for both disorder (T → 0) and phonon (T ≫ Θ)-dependent components of resistivity (here, a = 0.3 nm, is the lattice constant of Au).
对于T > Θ(其中Θ为德拜温度)的情况,良金属,尤其是诸如金(Au)、银(Ag)或铜等贵金属的电阻率随温度(T)呈线性增加。这是因为这些金属中电子与晶格振动(即声子)之间的耦合(λ)较弱,λ约为0.1 - 0.2。在本工作中,我们概述了一种结晶金的纳米结构化策略,在这种策略下,金属输运的这一概念不再成立。我们表明,通过在结晶金壳内嵌入半径约为1 - 2 nm的超小银纳米颗粒(AgNP)的分布式网络,可以增强电子 - 声子相互作用,有效λ高达约20。随着AgNP密度的增加,电阻率偏离T线性关系,并在无序(T → 0)和声子(T ≫ Θ)相关的电阻率分量方面趋近于Mott - Ioffe - Regel标度ρ ~ ha/e饱和(这里,a = 0.3 nm是金的晶格常数)。
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