1 |
Flexible heatsink based on a phase-change material for a wearable thermoelectric generator Lee G, Kim CS, Kim S, Kim YJ, Choi H, Cho BJ Energy, 179, 12, 2019 |
2 |
Human Body Micro-power plant Smith E, Hosseini SE Energy, 183, 16, 2019 |
3 |
Wearable thermoelectric generator to harvest body heat for powering a miniaturized accelerometer Wang Y, Shi YG, Mei DQ, Chen ZC Applied Energy, 215, 690, 2018 |
4 |
Structural design of a flexible thermoelectric power generator for wearable applications Kim CS, Lee GS, Choi H, Kim YJ, Yang HM, Lim SH, Lee SG, Cho BJ Applied Energy, 214, 131, 2018 |
5 |
A pyroelectric generator as a self-powered temperature sensor for sustainable thermal energy harvesting from waste heat and human body heat Sultana A, Alam MM, Middya TR, Mangal D Applied Energy, 221, 299, 2018 |
6 |
Flexible thermoelectric generator using bulk legs and liquid metal interconnects for wearable electronics Suarez F, Parekh DP, Ladd C, Vashaee D, Dickey MD, Ouml;zturk MC Applied Energy, 202, 736, 2017 |
7 |
Flexible thermoelectric power generation system based on rigid inorganic bulk materials Eom Y, Wijethunge D, Park H, Park SH, Kim W Applied Energy, 206, 649, 2017 |
8 |
Wearable thermoelectric generators for human body heat harvesting Hyland M, Hunter H, Liu J, Veety E, Vashaee D Applied Energy, 182, 518, 2016 |
9 |
Modeling of the temperature field in the amorphous Ge2Sb2Te5 film induced by a picosecond laser with a body heat source Liu FR, Fan ZK, Zhu Z, Yang JF, Lin X, Liu F, Sun NX Applied Surface Science, 343, 188, 2015 |
10 |
Hovering height of a high-temperature body over a water-containing porous plate Okuyama K, Kobayashi Y, Kojima G International Journal of Heat and Mass Transfer, 60, 22, 2013 |