SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4200572988> ?p ?o ?g. }

Showing items 1 to 100 of ±153 with 100 items per page.

W4200572988 endingPage "115108" @default.
W4200572988 startingPage "115108" @default.
W4200572988 abstract "In this work, thermoelectric (TE) properties of monolayer InClSe are investigated by using the first-principles calculations combined with Boltzmann transport theory, which is a novel member of FeOCl-type 2D materials. We find that the electronic and thermal transport parameters along x and y axis are quite different, resulting in a strong anisotropic thermoelectric performance of monolayer InClSe, which provides a possibility to design anisotropic thermoelectric device. For n-type doping, monolayer InClSe has high electrical conductivity along x-axis. Detailed calculations reveal that the high electrical conductivity is originate from the long electron relaxation time and high connectivity of electron conduction channels. The high electrical conductivity and satisfactory Seebeck coefficient result in the excellent power factor (PF) for monolayer InClSe. For n-type doping, the optimal PF along x-axis can reach 47.8 mW m−1 K−2 at 700 K, which is much higher than most typical thermoelectric materials. Combining excellent PF and suppressed lattice thermal conductivity, the n-type doping monolayer InClSe has high ZT values in wide temperature range (300 K–700 K) along x-axis and the maximal ZT value reaches 2.82 at 700 K. Our results demonstrate that monolayer InClSe is a promising thermoelectric candidate for energy harvesting in moderate-temperature range." @default.
W4200572988 created "2021-12-31" @default.
W4200572988 creator A5014940665 @default.
W4200572988 creator A5021859326 @default.
W4200572988 creator A5033751081 @default.
W4200572988 creator A5042403859 @default.
W4200572988 creator A5048095917 @default.
W4200572988 creator A5048710757 @default.
W4200572988 creator A5073726850 @default.
W4200572988 creator A5081728682 @default.
W4200572988 date "2022-04-01" @default.
W4200572988 modified "2023-10-12" @default.
W4200572988 title "Prediction of a high-ZT and strong anisotropic thermoelectric material: Monolayer InClSe" @default.
W4200572988 cites W1937049252 @default.
W4200572988 cites W1965905995 @default.
W4200572988 cites W1969405117 @default.
W4200572988 cites W1981135908 @default.
W4200572988 cites W1981368803 @default.
W4200572988 cites W1982249321 @default.
W4200572988 cites W1986147552 @default.
W4200572988 cites W1996953437 @default.
W4200572988 cites W1998129292 @default.
W4200572988 cites W2017347525 @default.
W4200572988 cites W2025005622 @default.
W4200572988 cites W2067983335 @default.
W4200572988 cites W2071111997 @default.
W4200572988 cites W2079105963 @default.
W4200572988 cites W2081870935 @default.
W4200572988 cites W2085093563 @default.
W4200572988 cites W2092157292 @default.
W4200572988 cites W2148596493 @default.
W4200572988 cites W2168045356 @default.
W4200572988 cites W2289092090 @default.
W4200572988 cites W2315424076 @default.
W4200572988 cites W2322850719 @default.
W4200572988 cites W2518957231 @default.
W4200572988 cites W2526150553 @default.
W4200572988 cites W2542066358 @default.
W4200572988 cites W2571102419 @default.
W4200572988 cites W2610700647 @default.
W4200572988 cites W2749146724 @default.
W4200572988 cites W2757598758 @default.
W4200572988 cites W2764100182 @default.
W4200572988 cites W2770780793 @default.
W4200572988 cites W2778086665 @default.
W4200572988 cites W2793543443 @default.
W4200572988 cites W2883077664 @default.
W4200572988 cites W2883580006 @default.
W4200572988 cites W2885800154 @default.
W4200572988 cites W2903971652 @default.
W4200572988 cites W2940551354 @default.
W4200572988 cites W2943538923 @default.
W4200572988 cites W2962717544 @default.
W4200572988 cites W2962946470 @default.
W4200572988 cites W2967237680 @default.
W4200572988 cites W2975451552 @default.
W4200572988 cites W2984847900 @default.
W4200572988 cites W3003080358 @default.
W4200572988 cites W3004951321 @default.
W4200572988 cites W3009058697 @default.
W4200572988 cites W3009539012 @default.
W4200572988 cites W3011504151 @default.
W4200572988 cites W3013467425 @default.
W4200572988 cites W3014581942 @default.
W4200572988 cites W3015573866 @default.
W4200572988 cites W3018250416 @default.
W4200572988 cites W3034374808 @default.
W4200572988 cites W3047590956 @default.
W4200572988 cites W3081985273 @default.
W4200572988 cites W3082929625 @default.
W4200572988 cites W3088366721 @default.
W4200572988 cites W3088620746 @default.
W4200572988 cites W3121972292 @default.
W4200572988 cites W3126528333 @default.
W4200572988 cites W3134319111 @default.
W4200572988 cites W3135018495 @default.
W4200572988 cites W3136659483 @default.
W4200572988 cites W3157065585 @default.
W4200572988 cites W3158562065 @default.
W4200572988 cites W3184967893 @default.
W4200572988 cites W3189213916 @default.
W4200572988 cites W3193979280 @default.
W4200572988 cites W4205954867 @default.
W4200572988 doi "https://doi.org/10.1016/j.physe.2021.115108" @default.
W4200572988 hasPublicationYear "2022" @default.
W4200572988 type Work @default.
W4200572988 citedByCount "4" @default.
W4200572988 countsByYear W42005729882022 @default.
W4200572988 countsByYear W42005729882023 @default.
W4200572988 crossrefType "journal-article" @default.
W4200572988 hasAuthorship W4200572988A5014940665 @default.
W4200572988 hasAuthorship W4200572988A5021859326 @default.
W4200572988 hasAuthorship W4200572988A5033751081 @default.
W4200572988 hasAuthorship W4200572988A5042403859 @default.
W4200572988 hasAuthorship W4200572988A5048095917 @default.
W4200572988 hasAuthorship W4200572988A5048710757 @default.
W4200572988 hasAuthorship W4200572988A5073726850 @default.
W4200572988 hasAuthorship W4200572988A5081728682 @default.