Phonon thermoelectric transistors and rectifiers

Jiang, Jianhua; Kulkarni, Manas; Segal, Dvira; Imry, Y.

doi:10.1103/physrevb.92.045309

Cited by 107 publications

(147 citation statements)

References 53 publications

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“…Particularly, when ǫ d = ǫ a , calculations of transport in double quantum dot systems show that the inelastic component of the current can dominate the elastic term 47 . We also justify our model in the language of molecular orbitals, electronic eigenstates of the molecule.…”

Section: Modelmentioning

confidence: 99%

“…This simplification allows us to reach closed analytic results for the CGF. The contributing of elastic tunneling processes can be included in an additive manner 47 , a reasonable approximation at weak coupling 41 . We diagonalize the electronic Hamiltonian, H el ≡ H M + H L + H R + H C , and write it down in terms of a new set of fermionic operators (a l/r , a † l/r ),…”

Section: Modelmentioning

confidence: 99%

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Full counting statistics of vibrationally assisted electronic conduction: Transport and fluctuations of thermoelectric efficiency

2015

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We study the statistical properties of charge and energy transport in electron conducting junctions with electron-phonon interactions, specifically, the thermoelectric efficiency and its fluctuations. The system comprises donor and acceptor electronic states, representing a two-site molecule or a double quantum dot system. Electron transfer between metals through the two molecular sites is coupled to a particular vibrational mode which is taken to be either harmonic or anharmonic-a truncated (twostate) spectrum. Considering these models we derive the cumulant generating function in steady state for charge and energy transfer, correct to second-order in the electron-phonon interaction, but exact to all orders in the metal-molecule coupling strength. This is achieved by using the nonequilibrium Green's function approach (harmonic mode) and a kinetic quantum master equation method (anharmonic mode). From the cumulant generating function we calculate the charge current and its noise and the large deviation function for the thermoelectric efficiency. We demonstrate that at large bias the charge current, differential conductance, and the current noise can identify energetic and structural properties of the junction. We further examine the operation of the junction as a thermoelectric engine and show that while the macroscopic thermoelectric efficiency is indifferent to the nature of the mode (harmonic or anharmonic), efficiency fluctuations do reflect this property.

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Section: Modelmentioning

confidence: 99%

Section: Modelmentioning

confidence: 99%

Full counting statistics of vibrationally assisted electronic conduction: Transport and fluctuations of thermoelectric efficiency

2015

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“…On the other hand, various devices running on energy exchanges with a third bosonic reservoir have been discussed. In particular, phonon-driven mechanisms have been considered at a theoretical level in two-levels systems or chains of localized states along nanowires (NWs) in the context of phonon-assisted hopping transport [31,32,37]. More generally, NW-based devices have been at the heart of experimental studies on future thermoelectrics for over a decade [38,39].…”

Section: Introductionmentioning

confidence: 99%

“…Nowadays the idea of exploiting multiterminal thermoelectric setups is driving the field through a new season of very intense activity . In contrast with conventional two-terminal thermoelectrics, multiterminal thermoelectrics aims at studying a conductor connected, in addition to the two reservoirs at its ends, to (at least) one other reservoir, be it a mere probe [4][5][6][7][8]21], a normal electronic reservoir [9][10][11], a superconducting lead [11][12][13][14], or a reservoir of fermionic [15][16][17]21,22] or bosonic [23][24][25][26][27][28][29][30][31][32][33][34]36] nature that can only exchange energy with the system. Investigations carried out so far have shown that the multiterminal geometry has generally a positive impact on the performance of the thermoelectric devices [7,9,13,21,30], compared to their two-terminal counterparts.…”

Section: Introductionmentioning

confidence: 99%

Nanowire-based thermoelectric ratchet in the hopping regime

et al. 2016

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We study a thermoelectric ratchet consisting of an array of disordered nanowires arranged in parallel on top of an insulating substrate and contacted asymmetrically to two electrodes. Transport is investigated in the Mott hopping regime, when localized electrons can propagate through the nanowires via thermally assisted hops. When the electronic temperature in the nanowires is different from the phononic one in the substrate, we show that a finite electrical current is generated even in the absence of driving forces between the electrodes. We discuss the device performance both as an energy harvester, when an excess heat from the substrate is converted into useful power, and as a refrigerator, when an external power is supplied to cool down the substrate.

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“…Finally, the QME as described here can be used to examine a range of transport problems, by turning on/off different reservoirs. Besides the analysis of inelastic electronic conduction with anharmonic modes, one can use this method and study the operation of phononthermoelectric transistors 53 and phononic thermal junctions with harmonic and anharmonic local modes, to demonstrate nonlinear function such as thermal rectification and negative differential thermal conductance 62 . To derive Eq.…”

Section: Discussionmentioning

confidence: 99%

Effects of vibrational anharmonicity on molecular electronic conduction and thermoelectric efficiency

Friedman

Agarwalla

Segal

2016

The Journal of Chemical Physics

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We study inelastic vibration-assisted charge transfer effects in two-site molecular junctions, focusing on signatures of vibrational anharmonicity on the electrical characteristics and the thermoelectric response of the junction. We consider three types of oscillators: harmonic, anharmonic-Morse allowing bond dissociation, and harmonic-quartic, mimicking a confinement potential. Using a quantum master equation method which is perturbative in the electron-vibration interaction we find that the (inelastic) electrical and thermal conductances can be largely affected by the nature of the vibrational potential. In contrast, the Seebeck coefficient, the thermoelectric figure-of-merit, and the thermoelectric efficiency beyond linear response, conceal this information, showing a rather weak sensitivity to vibrational anharmonicity. Our work illustrates that anharmonic (many-body) effects, consequential to the current-voltage characteristics, are of little effect for the thermoelectric performance.

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Phonon thermoelectric transistors and rectifiers

Cited by 107 publications

References 53 publications

Full counting statistics of vibrationally assisted electronic conduction: Transport and fluctuations of thermoelectric efficiency

Full counting statistics of vibrationally assisted electronic conduction: Transport and fluctuations of thermoelectric efficiency

Nanowire-based thermoelectric ratchet in the hopping regime

Effects of vibrational anharmonicity on molecular electronic conduction and thermoelectric efficiency

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