Joule heating and thermoelectric properties in short single-walled carbon nanotubes: Electron-phonon interaction effect

Jiang, Jin-Wu; Wang, Jian‐Sheng

doi:10.1063/1.3671069

Cited by 44 publications

(20 citation statements)

References 49 publications

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“…where Σ <,>,abs e−ph , Σ <,>,em e−ph , Σ <,>,sp e−ph are the self energies associated with photon absorption, stimulated emission and spontaneous emission, respectively. The derivation is very similar to the work of Jiang et al 37 One should note that spontaneous emission term is integrated over broad energy range in CB and VB energy regions and is only dependent on joint density of states and occupation numbers at energies which differs by photon energy. E min , E max are the minimal and maximal photon energies dictated by material and device parameters.…”

Section: Negf and Self-energiesmentioning

confidence: 64%

Optoelectronic response calculations in the framework of k·p coupled to non-equilibrium Green's functions for one-dimensional systems in the ballistic limit

Buin

Verma

Saini

2013

Journal of Applied Physics

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We present theory of the carrier-optical interaction in 1D systems based on the nonequilibrium Greens function formalism in the 4x4 k · p model. As a representative parameters we chose the GaAs. Although theory is presented in 4x4kp many subbands, results and discussion section is based on the simplified model such as 2x2 kp model (two transverse modes). Even though 2x2 kp model is simple enough it shows many phenomena that have not been seen before. We focus mainly on the ballistic extraction of photogenerated free carriers at the radiative limit which is described by the self-energy term derived in dipole approximation and solved in self-consistent manner with Keldysh quantum kinetic equations. Any relaxation or non-radiative recombination mechanisms as well as excitonic features are neglected.Effect of non-locality of electron-photon self energy term is considered and discussed.Spontaneous emission is also considered and shown to be small in short devices under medium bias conditions. Electron and hole spatial current oscillations are seen and discussed. It is shown that neglecting off-diagonal correlation in the band index not only produces quantitatively wrong results but it also alters the qualitative picture.All simulations are done in the full-rank approximation , with all spatial and band correlation effects are kept intact. This allows us to study not only quantitative effects but also qualitative behaviour.

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Section: Negf and Self-energiesmentioning

confidence: 64%

Optoelectronic response calculations in the framework of k·p coupled to non-equilibrium Green's functions for one-dimensional systems in the ballistic limit

Buin

Verma

Saini

2013

Journal of Applied Physics

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“…However, much of the early theoretical work on thermoelectric transport in molecular conductors treats electron and phonon transport separately, within the linear regime. Recently, there are more attempts trying to include the electron-phonon(e-ph) interaction, extend the analysis to the nonlinear regime [12,[21][22][23][24][25][26][27][28][29][30][31][32][33][34][35][36][37], and consider multiterminal transport [38][39][40][41][42][43][44]. The e-ph interaction modifies the electronic transmission and consequently the thermopower.…”

Section: Introductionmentioning

confidence: 99%

Electron and phonon drag in thermoelectric transport through coherent molecular conductors

et al. 2016

Self Cite

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We study thermoelectric transport through a coherent molecular conductor connected to two electron and two phonon baths using the nonequilibrium Green's function method. We focus on the mutual drag between electron and phonon transport as a result of 'momentum' transfer, which happens only when there are at least two phonon degrees of freedom. After deriving expressions for the linear drag coefficients, obeying the Onsager relation, we further investigate their effect on nonequilibrium transport. We show that the drag effect is closely related to two other phenomena: (1) adiabatic charge pumping through a coherent conductor; (2) the current-induced nonconservative and effective magnetic forces on phonons.

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“…The conversion mechanism could be explained by the fact that the migration of charge carriers in the system might become accelerated due to the influence of external electric potential. These accelerated electrons might collide in-elastically with phonons, impurities or defects presented in the SWCNTs walls, which lead to the heat release [ 32 , 33 ].…”

Section: Resultsmentioning

confidence: 99%

Personal Thermal Management by Single-Walled Carbon Nanotubes Functionalized Polyester Fabrics

Guan

Zhong

Wang³

et al. 2021

Materials

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In this work, a personal thermal management (PTM) device based on single walled carbon nanotubes (SWCNTs) functionalized polyester fabrics had been studied. Polyester fabrics were functionalized with SWCNTs through coating method with poly (butyl acrylate) emulsion as the adhesive. The SEM images exhibited that SWCNTs formed high-efficiently conductive networks due to the large aspect ratio and uniform dispersion. A steady-state temperature of 40 °C was achieved at the input voltage of 2.5 V within 7 s, which exhibited excellent electro-thermal performance. Even under periodic heating-cooling conditions, heating system still displayed relatively stable temperature and relative resistance, which could have potential application for wearable clothes.

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Joule heating and thermoelectric properties in short single-walled carbon nanotubes: Electron-phonon interaction effect

Cited by 44 publications

References 49 publications

Optoelectronic response calculations in the framework of k·p coupled to non-equilibrium Green's functions for one-dimensional systems in the ballistic limit

Optoelectronic response calculations in the framework of k·p coupled to non-equilibrium Green's functions for one-dimensional systems in the ballistic limit

Electron and phonon drag in thermoelectric transport through coherent molecular conductors

Personal Thermal Management by Single-Walled Carbon Nanotubes Functionalized Polyester Fabrics

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