Defect engineering in thermoelectric materials: what have we learned?
Thermoelectric energy conversion is an all solid-state technology that relies on exceptional
semiconductor materials that are generally optimized through sophisticated strategies …
semiconductor materials that are generally optimized through sophisticated strategies …
Cellulose ionic gel and its sustainable thermoelectric devices–design, applications and prospects
Thermoelectric materials, which can convert thermal behaviors into electrical properties, are
widely used in thermoelectric power generation, friendly refrigeration, and wearable …
widely used in thermoelectric power generation, friendly refrigeration, and wearable …
A comprehensive design method for segmented thermoelectric generator
A comprehensive method for indicating the length ratio of segmented thermoelectric
generator (TEG) is proposed to increase the output power and thermoelectric conversion …
generator (TEG) is proposed to increase the output power and thermoelectric conversion …
Boundary engineering for the thermoelectric performance of bulk alloys based on bismuth telluride
Thermoelectrics, which transports heat for refrigeration or converts heat into electricity
directly, is a key technology for renewable energy harvesting and solid‐state refrigeration …
directly, is a key technology for renewable energy harvesting and solid‐state refrigeration …
A comprehensive and time-efficient model for determination of thermoelectric generator length and cross-section area
A comprehensive mathematical model is proposed to calculate the optimal leg length and
cross-section area of TEG unit to maximize the peak output power. The model shows that for …
cross-section area of TEG unit to maximize the peak output power. The model shows that for …
[HTML][HTML] A review of the performance evaluation of thermoelectric nanostructure materials Bi2-xSbxTe3 (0.20≤ X≤ 1.80)
Compared to conventional materials, thermoelectric (TE) nanostructured materials have a
greater commercial impact. The advancement of these materials is necessary to develop the …
greater commercial impact. The advancement of these materials is necessary to develop the …
The decoupling electrical and thermal conductivity of fullerene/polyaniline hybrids reinforced polymer composites
X Cheng, T Yokozeki, M Yamamoto, H Wang… - … Science and Technology, 2017 - Elsevier
Abstract Hybrid nanoparticles, fullerene (C 60) and polyaniline (PANI), were incorporated
into the polydivinylbenzene (PDVB), and their decoupling effect of electrical and thermal …
into the polydivinylbenzene (PDVB), and their decoupling effect of electrical and thermal …
Evidence of improvement in thermoelectric parameters of n-type Bi2Te3/graphite nanocomposite
Improvement in thermoelectric parameters is reported with graphite incorporation in n-type
Bi 2 Te 3/graphite nanocomposite systems. In-depth thermoelectric properties of …
Bi 2 Te 3/graphite nanocomposite systems. In-depth thermoelectric properties of …
Power and efficiency factors for comprehensive evaluation of thermoelectric generator materials
We derive a power factor and an efficiency factor for comprehensive evaluation of
thermoelectric generator (TEG) materials, and approve that only using the power factor (or …
thermoelectric generator (TEG) materials, and approve that only using the power factor (or …
High thermoelectric performance of Bi-Te alloy: defect engineering strategy
JG Park, YH Lee - Current Applied Physics, 2016 - Elsevier
Waste-to-energy conversion generally means incineration, and the combustion of organic
waste material for energy recovery involves generation of carbon dioxide. In contrast …
waste material for energy recovery involves generation of carbon dioxide. In contrast …