Center Develops Flexible Thermoelectric Generators to Enable Body Heat Powered Wearable Devices

Outcome/Accomplishment

The NSF-funded Engineering Research Center (ERC) for Advanced Self-Powered Systems of Integrated Sensors and Technologies (ASSIST), headquartered at North Carolina State University, developed a novel silicone compound that allows flexibility in thermoelectric generators (TEGs). This advance enables the ability to integrate TEGs into wearable devices and minimizes heat losses.

Impact/Benefits

A high-performance, flexible TEG has the potential to run continuously on body heat, without the need for charging or battery replacement. This promises to overcome the limitation of rigid TEGs that cannot conform to the body.

Explanation/Background

Engineers at ASSIST developed flexible TEGs using stretchable, liquid metal-based interconnects. The interconnects were then encased in a novel, high thermal conductivity silicone elastomer, which allows flexibility. The resulting flexible package conforms to, and maintains contact with, curved surfaces, even when bending or stretching. ASSIST's flexible thermoelectric generators also provide the highest power levels reported to date for flexible TEGs.

TEGs integrated into wearable devices and placed on the body can convert small temperature differences between the body and the surrounding environment to electricity. Flexible TEGs can also provide electricity in industrial settings and other situations where excess thermal energy is available.

ASSIST ERC developed a new and improved flexible TEG that can capture body heat to power wearable devices.

Location

Raleigh, North Carolina

e-mail

assistcenter@ncsu.edu

website

http://assistcenter.org/

Start Year

Biotechnology and Healthcare

Biotechnology and Health Care Icon
Biotechnology and Health Care Icon

Biotechnology and Health Care

Lead Institution

North Carolina State University

Core Partners

Florida International University, Pennsylvania State University, University of Virginia

Fact Sheet

ASSIST_Factsheet.pdf
ASSIST ERC developed a new and improved flexible TEG that can capture body heat to power wearable devices.

Outcome/Accomplishment

The NSF-funded Engineering Research Center (ERC) for Advanced Self-Powered Systems of Integrated Sensors and Technologies (ASSIST), headquartered at North Carolina State University, developed a novel silicone compound that allows flexibility in thermoelectric generators (TEGs). This advance enables the ability to integrate TEGs into wearable devices and minimizes heat losses.

Location

Raleigh, North Carolina

e-mail

assistcenter@ncsu.edu

website

http://assistcenter.org/

Start Year

Biotechnology and Healthcare

Biotechnology and Health Care Icon
Biotechnology and Health Care Icon

Biotechnology and Health Care

Lead Institution

North Carolina State University

Core Partners

Florida International University, Pennsylvania State University, University of Virginia

Fact Sheet

ASSIST_Factsheet.pdf

Impact/benefits

A high-performance, flexible TEG has the potential to run continuously on body heat, without the need for charging or battery replacement. This promises to overcome the limitation of rigid TEGs that cannot conform to the body.

Explanation/Background

Engineers at ASSIST developed flexible TEGs using stretchable, liquid metal-based interconnects. The interconnects were then encased in a novel, high thermal conductivity silicone elastomer, which allows flexibility. The resulting flexible package conforms to, and maintains contact with, curved surfaces, even when bending or stretching. ASSIST's flexible thermoelectric generators also provide the highest power levels reported to date for flexible TEGs.

TEGs integrated into wearable devices and placed on the body can convert small temperature differences between the body and the surrounding environment to electricity. Flexible TEGs can also provide electricity in industrial settings and other situations where excess thermal energy is available.