Thermoelectric materials and applications for energy harvesting power generation I Petsagkourakis, K Tybrandt, X Crispin, I Ohkubo, N Satoh, T Mori
Science and technology of advanced materials 19 (1), 836-862, 2018
491 2018 Novel principles and nanostructuring methods for enhanced thermoelectrics T Mori
Small 13 (45), 1702013, 2017
317 2017 Thermoelectric performance of a metastable thin-film Heusler alloy B Hinterleitner, I Knapp, M Poneder, Y Shi, H Müller, G Eguchi, ...
Nature 576 (7785), 85-90, 2019
306 2019 Nano-micro-porous skutterudites with 100% enhancement in ZT for high performance thermoelectricity AU Khan, K Kobayashi, DM Tang, Y Yamauchi, K Hasegawa, M Mitome, ...
Nano Energy 31, 152-159, 2017
244 2017 Demonstration of ultrahigh thermoelectric efficiency of∼ 7.3% in Mg3Sb2/MgAgSb module for low-temperature energy harvesting Z Liu, N Sato, W Gao, K Yubuta, N Kawamoto, M Mitome, K Kurashima, ...
Joule 5 (5), 1196-1208, 2021
237 2021 Thermoelectric nanomaterials K Koumoto, T Mori
Materials Design and Applications, Springer Series in Materials Science 182 …, 2013
219 2013 Polymer based thermoelectric nanocomposite materials and devices: Fabrication and characteristics N Nandihalli, CJ Liu, T Mori
Nano Energy 78, 105186, 2020
212 2020 Thermoelectricity generation and electron–magnon scattering in a natural chalcopyrite mineral from a deep‐sea hydrothermal vent R Ang, AU Khan, N Tsujii, K Takai, R Nakamura, T Mori
Angewandte Chemie 127 (44), 13101-13105, 2015
210 2015 High thermoelectric power factor in a carrier-doped magnetic semiconductor CuFeS2 N Tsujii, T Mori
Applied Physics Express 6 (4), 043001, 2013
207 2013 Materials for energy harvesting: At the forefront of a new wave T Mori, S Priya
MRS Bulletin 43 (3), 176-180, 2018
179 2018 Observation of enhanced thermopower due to spin fluctuation in weak itinerant ferromagnet N Tsujii, A Nishide, J Hayakawa, T Mori
Science advances 5 (2), eaat5935, 2019
163 2019 Thermoelectric properties of CuGa 1− x Mn x Te 2: power factor enhancement by incorporation of magnetic ions F Ahmed, N Tsujii, T Mori
Journal of Materials Chemistry A 5 (16), 7545-7554, 2017
152 2017 Manipulating the Ge vacancies and Ge precipitates through Cr doping for realizing the high‐performance GeTe thermoelectric material J Shuai, Y Sun, X Tan, T Mori
Small 16 (13), 1906921, 2020
143 2020 Measurements of branching fractions and direct asymmetries for , and decays YT Duh, TY Wu, P Chang, GB Mohanty, Y Unno, I Adachi, H Aihara, ...
Physical Review D 87 (3), 031103, 2013
138 2013 Magnetism-mediated thermoelectric performance of the Cr-doped bismuth telluride tetradymite JB Vaney, SA Yamini, H Takaki, K Kobayashi, N Kobayashi, T Mori
Materials today physics 9, 100090, 2019
134 2019 Maximizing the performance of n-type Mg3 Bi2 based materials for room-temperature power generation and thermoelectric cooling Z Liu, W Gao, H Oshima, K Nagase, CH Lee, T Mori
Nature communications 13 (1), 1120, 2022
132 2022 Enhanced thermoelectric performance of Bi–Sb–Te/Sb 2 O 3 nanocomposites by energy filtering effect A Pakdel, Q Guo, V Nicolosi, T Mori
Journal of materials chemistry A 6 (43), 21341-21349, 2018
128 2018 Thermoelectric properties of homologous p-and n-type boron-rich borides T Mori, T Nishimura
Journal of Solid State Chemistry 179 (9), 2908-2915, 2006
121 2006 Handbook on the physics and chemistry of rare earths T Mori, KA Gschneidner, JC Bunzli, V Pecharsky
by KA Gschneidner, Jr., J.-CG Bünzli and VK Pecharsky, Elsevier, Amsterdam, 105, 2008
119 2008 Higher borides T Mori
Handbook on the physics and chemistry of rare earths 38, 105-173, 2008
117 2008