Litcius/Paper detail

Simultaneous capturing phonon and electron dynamics in MXenes

Qi Zhang, Jiebo Li, Jiao Wen, Wei Li, Xin Chen, Yifan Zhang, Jingyong Sun, Xin Yan, Mingjun Hu, Guorong Wu, Kaijun Yuan, Hongbo Guo, Xueming Yang

2022Nature Communications47 citationsDOIOpen Access PDF

Abstract

Abstract Plasmonic MXenes are of particular interest, because of their unique electron and phonon structures and multiple surface plasmon effects, which are different from traditional plasmonic materials. However, to date, how electronic energy damp to lattice vibrations (phonons) in MXenes has not been unraveled. Here, we employed ultrafast broadband impulsive vibrational spectroscopy to identify the energy damping channels in MXenes (Ti 3 C 2 T x and Mo 2 CT x ). Distinctive from the well-known damping pathways, our results demonstrate a different energy damping channel, in which the Ti 3 C 2 T x plasmonic electron energy transfers to coherent phonons by nonthermal electron mediation after Landau damping, without involving electron-electron scattering. Moreover, electrons are observed to strongly couple with A 1g mode (~60 fs, 85–100%) and weakly couple with E g mode (1–2 ps, 0–15%). Our results provide new insight into the electron-phonon interaction in MXenes, which allows the design of materials enabling efficient manipulation of electron transport and energy conversion.

Topics & Concepts

MXenesPlasmonPhononElectronQuasiparticleCondensed matter physicsGrapheneElectron energy loss spectroscopyPhysicsMaterials scienceOptoelectronicsNanotechnologyQuantum mechanicsSuperconductivityMXene and MAX Phase Materials2D Materials and ApplicationsGraphene research and applications