Wearable electronics for personal healthcare and environment awareness are attracting
more and more attentions and gaining wide market acceptance. Wearable monitoring …

Self-powered wearable electronic devices are expected to be one of the mainstream
technologies for future portable electronic systems. As an energy harvester to power …

This paper develops a superhigh-performance wearable thermoelectric generator (WTEG)
for harvesting body heat, achieving an output power density of 15.8 μW/cm 2 in windless …

Flexible thermoelectric devices (f-TEDs) can realize direct energy conversion between heat
and electricity, which hold great prospects in wearable power source and personal thermal …

Environmental energy harvesting based on flexible thermoelectric generator (f-TEG)
provides an ideal micro-power source to drive the node sensors for the Internet of Things …

Energy‐autonomous wearable human activity monitoring is imperative for daily healthcare,
benefiting from long‐term sustainable uses. Herein, a fully self‐powered wearable system …

Wearable thermoelectric generators (TEGs), which can convert human body heat to
electricity, provide a promising solution for self‐powered wearable electronics. However …

Wearable thermoelectric generators (TEGs) enable the conversion of human body heat into
microwatts to milliwatt electricity, which can be utilized to power miniaturized electronic …

We propose a flexible and wearable thermoelectric nanogenerator (FTEG) made from
Bi2Te3, which allows high voltage and output power density. The proposed FTEG works as …

Wearable thermoelectric generators are attracting tremendous interest due to their capability
of converting the human body heat into electricity for powering electronics. In order to reduce …