The technology for in-plane poly-Si thermopiles has been developed. The bulkmicromachined thermopiles are located between two Si bars and connected thermally with those bars through thin-film thermal shunts. The patterned strips of thermocouple material together with thermal shunts form bridges between Si bars. Two versions of a thermoelectric generator (TEG) with micromachined thermopiles have been assembled and tested on a person's wrist, and when integrated in a T-shirt. The TEG still produces less than 1 μW in the office, but at ambient temperatures below 11-13 °C it produces more than 1 μW at a voltage of more than 2 V on the matched load. The new way of integration of wearable TEG in clothing is shown. The TEG is located under the tex...
To mitigate climate change attributed to the electricity generation, there have been tremendous effo...
This paper presents the optimization of a bismuth tellurium (Bi1.8Te3.2)-antimony tellurium (Sb2Te3)...
Broad Funding Opportunity Announcement Project: UIUC is experimenting with silicon-based materials t...
Micro power generators and micro energy sourcesThis paper presents a polycrystalline silicon germani...
Integration of thermopiles in garments has been performed in this work in different ways. It is show...
This thesis describes the approaches of fabricating and testing thermoelectric generators (TEG) usin...
Herein, we demonstrate that a flexible, air-permeable, thermoelectric (TE) power generator can be pr...
Thermoelectric pastes based on Sb, Bi, Te powders were prepared, characterized and used to fabricate...
We report the development of a Si-based micro thermogenerator build from silicon-on-insulator by usi...
This paper presents development of a flexible thermoelectric energy harvester by using transfer prin...
Converting body heat into electricity using flexible thermoelectric generators can be useful for sel...
This paper describes the characterization method and results for bulk- micromachined in-plane thermo...
Growing energy demands are driving people to generate power in every possible way. New energy source...
Waste heat in the temperature range up to 100 °C can be found in virtually all areas of industry and...
Today, the interaction of individual humans with electronic devices demands specific user skills. In...
To mitigate climate change attributed to the electricity generation, there have been tremendous effo...
This paper presents the optimization of a bismuth tellurium (Bi1.8Te3.2)-antimony tellurium (Sb2Te3)...
Broad Funding Opportunity Announcement Project: UIUC is experimenting with silicon-based materials t...
Micro power generators and micro energy sourcesThis paper presents a polycrystalline silicon germani...
Integration of thermopiles in garments has been performed in this work in different ways. It is show...
This thesis describes the approaches of fabricating and testing thermoelectric generators (TEG) usin...
Herein, we demonstrate that a flexible, air-permeable, thermoelectric (TE) power generator can be pr...
Thermoelectric pastes based on Sb, Bi, Te powders were prepared, characterized and used to fabricate...
We report the development of a Si-based micro thermogenerator build from silicon-on-insulator by usi...
This paper presents development of a flexible thermoelectric energy harvester by using transfer prin...
Converting body heat into electricity using flexible thermoelectric generators can be useful for sel...
This paper describes the characterization method and results for bulk- micromachined in-plane thermo...
Growing energy demands are driving people to generate power in every possible way. New energy source...
Waste heat in the temperature range up to 100 °C can be found in virtually all areas of industry and...
Today, the interaction of individual humans with electronic devices demands specific user skills. In...
To mitigate climate change attributed to the electricity generation, there have been tremendous effo...
This paper presents the optimization of a bismuth tellurium (Bi1.8Te3.2)-antimony tellurium (Sb2Te3)...
Broad Funding Opportunity Announcement Project: UIUC is experimenting with silicon-based materials t...