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W3011504151 startingPage "315301" @default.
W3011504151 abstract "Phonons in crystalline solids are of utmost importance in governing its lattice thermal conductivity (k L). In this work, k L in hafnium (Hf) dichalcogenide monolayers has been investigated based on ab initio DFT coupled to linearized Boltzmann transport equation together with single-mode relaxation-time approximation. Ultra-low k L found in HfS2 (2.19 W m-1 K-1), HfSe2 (1.23 W m-1 K-1) and HfSSe (1.78 W m-1 K-1) monolayers at 300 K, is comparable to that of the state-of-art bulk thermoelectric materials, such as, Bi2Te3 (1.6 W m-1 K-1), PbTe (2.2 W m-1 K-1) and SnSe (2.6 W m-1 K-1). Gigantic longitudinal-transverse optical (LO-TO) splitting of up to 147.7 cm-1 is noticed at the Brillouin zone-centre (Γ-point), which is much higher than that in MoS2 single layer (∼2 cm-1). It is driven by the colossal phonon-electric field coupling arising from the domination of ionic character in the interatomic bonds and Born effective or dynamical charges as high as 7.4e on the Hf ions, which is seven times that on Mo in MoS2 single layer. Enhancement in k L occurs in HfS2 (2.19 to 4.1 W m-1 K-1), HfSe2 (1.23 to 1.7 W m-1 K-1) and HfSSe (1.78 to 2.2 W m-1 K-1) upon the incorporation of the non-analytic correction term. Furthermore, the mode Grüneisen parameter is calculated to be as high as ∼2.0, at room temperature, indicating a strong anharmonicity. Moreover, the contribution of optical phonons to k L is found to be ∼12%, which is significantly high than that in single-layer MoS2. Large atomic mass of Hf (178.5 u), small phonon group velocities (4-5 km s-1), low Debye temperature (∼166 K), low bond and elastic stiffness (Young's modulus ∼75 N m-1), small phonon lifetimes (∼6 ps), low specific heat capacity (∼17 J K-1 mol-1) and strong anharmonicity are collectively found to be the factors responsible for such a low k L. These findings would be immensely helpful in designing thermoelectric interconnects at the nanoscale and 2D material-based energy harvesters." @default.
W3011504151 created "2020-03-23" @default.
W3011504151 creator A5036953516 @default.
W3011504151 creator A5047939496 @default.
W3011504151 creator A5052092090 @default.
W3011504151 creator A5062232295 @default.
W3011504151 creator A5070411936 @default.
W3011504151 date "2020-05-07" @default.
W3011504151 modified "2023-10-01" @default.
W3011504151 title "Ultra-low lattice thermal conductivity and giant phonon–electric field coupling in hafnium dichalcogenide monolayers" @default.
W3011504151 cites W1528619378 @default.
W3011504151 cites W1595235404 @default.
W3011504151 cites W1754932684 @default.
W3011504151 cites W1770372700 @default.
W3011504151 cites W1970127494 @default.
W3011504151 cites W1982249321 @default.
W3011504151 cites W2007395042 @default.
W3011504151 cites W2031676311 @default.
W3011504151 cites W2035993021 @default.
W3011504151 cites W2044757135 @default.
W3011504151 cites W2055259893 @default.
W3011504151 cites W2055772520 @default.
W3011504151 cites W2067328332 @default.
W3011504151 cites W2070439469 @default.
W3011504151 cites W2077142596 @default.
W3011504151 cites W2079105963 @default.
W3011504151 cites W2083222334 @default.
W3011504151 cites W2087698390 @default.
W3011504151 cites W2117894566 @default.
W3011504151 cites W2130164120 @default.
W3011504151 cites W2132041018 @default.
W3011504151 cites W2207120674 @default.
W3011504151 cites W2289092090 @default.
W3011504151 cites W2299765168 @default.
W3011504151 cites W2332794034 @default.
W3011504151 cites W2340367173 @default.
W3011504151 cites W2396374883 @default.
W3011504151 cites W2465604970 @default.
W3011504151 cites W2510196338 @default.
W3011504151 cites W2518957231 @default.
W3011504151 cites W2529559526 @default.
W3011504151 cites W2558641155 @default.
W3011504151 cites W2562513382 @default.
W3011504151 cites W2598159493 @default.
W3011504151 cites W2606241461 @default.
W3011504151 cites W2621112483 @default.
W3011504151 cites W2727001931 @default.
W3011504151 cites W2729740108 @default.
W3011504151 cites W2737728723 @default.
W3011504151 cites W2741923309 @default.
W3011504151 cites W2763052855 @default.
W3011504151 cites W2763142181 @default.
W3011504151 cites W2768723853 @default.
W3011504151 cites W2785129410 @default.
W3011504151 cites W2794511188 @default.
W3011504151 cites W2798766668 @default.
W3011504151 cites W2799986647 @default.
W3011504151 cites W2801233384 @default.
W3011504151 cites W2804854576 @default.
W3011504151 cites W2805421249 @default.
W3011504151 cites W2805545593 @default.
W3011504151 cites W2886004264 @default.
W3011504151 cites W2887674022 @default.
W3011504151 cites W2887845268 @default.
W3011504151 cites W2896604570 @default.
W3011504151 cites W2900741327 @default.
W3011504151 cites W2903323747 @default.
W3011504151 cites W2913179536 @default.
W3011504151 cites W2921629713 @default.
W3011504151 cites W2945424916 @default.
W3011504151 cites W2953910298 @default.
W3011504151 cites W2967261404 @default.
W3011504151 cites W3105183473 @default.
W3011504151 cites W832976576 @default.
W3011504151 doi "https://doi.org/10.1088/1361-648x/ab7e5f" @default.
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