Development and performance analysis of an atomic layer thermopile sensor for composite heat flux testing in an explosive environment
Z Li, G Wang, J Yin, H Xue, J Guo, Y Wang, M Huang - Electronics, 2023 - mdpi.com
Traditional contact heat flux sensors suffer from a lack of dynamic performance, and existing
non-contact optical heat measurement equipment fails to detect convective heat transfer …
non-contact optical heat measurement equipment fails to detect convective heat transfer …
Novel flexible atomic layer thermopile heat flux sensor via orientation-controlled growth technique
Heat flux is an important parameter to be considered for the field of the optimization of
thermal protection to maintain the hot-end component's long lifetime and stability under …
thermal protection to maintain the hot-end component's long lifetime and stability under …
Exploration of the transverse seebeck effect in the inclined nitrogen-doped 4H-SiC thin film
T Xie, B Tao, R Zhao, X Chen, Z Li, M Zhao, W Chen - Measurement, 2025 - Elsevier
Abstract The Transverse Seebeck Effect (TSE) in a 20° inclined epitaxial nitrogen-doped 4H-
SiC thin film was observed for the first time. When excited by a 248 nm pulsed laser with a …
SiC thin film was observed for the first time. When excited by a 248 nm pulsed laser with a …
Interface modification based on the homoepitaxial MOCVD-MgO process: optimizing the performance of the flexible atomic layer thermopile heat flux sensor
Z Li, B Tao, R Zhao, K Yang, X Chen, T Xie… - IEEE Sensors …, 2024 - ieeexplore.ieee.org
The atomic layer thermopile (ALTP) heat flux sensor has been applied to detect the heat flux
of the hot end component surface to optimize the thermal protection design for important …
of the hot end component surface to optimize the thermal protection design for important …
Enhancing Heat Transfer in Immersion Cooling of Battery Packs-Using ALTP Heat Flux Sensors
L Weiss, I Karathanassis, B Rueppel, T Smith… - 2024 - sae.org
The effectiveness of immersion cooling for the thermal management of Electric-Vehicle (EV)
batteries is crucially influenced by the thermophysical and rheological properties of the heat …
batteries is crucially influenced by the thermophysical and rheological properties of the heat …