energy harvesting

Harnessing heat and vibration simultaneously in one energy harvester
Thermoelectric-voltaic hybrid harvester utilizing a cantilevered dynamic heat sink developed by KIST researchers CREDIT: Korea
A different way to generate electricity: Molecular thermal motion harvester devices
Electricity-generating mechanism of the molecular thermal motion harvester (MTMH). Credit: Yucheng Luan and Wei Li
The secret to making electricity from thin air? Nanopores. Credit: Derek Lovley/Ella Maru Studio
Nearly any material can be engineered with nanopores to harvest cost effective, scalable and interruption-free electricity
The secret to making electricity from thin air? Nanopores Credit: Derek Lovley/Ella Maru Studio Nearly
Schematics for energy harvester structure and adaptive clamping system (above) CREDIT Korea Institute of Science and Technology
A self-resonant smart energy harvester that can act as an independent power source for wireless sensors
Schematics for energy harvester structure and adaptive clamping system (above) CREDIT: Korea Institute of Science
The new harvester can amplify power generated from human walking vibrations by about 90 times while remaining as small as conventional harvesters. CREDIT Yoshimura, Osaka Metropolitan University
A vibration energy harvester amplifies human walking motion to enable self-charging wearable devices
The new harvester can amplify power generated from human walking vibrations by about 90 times
Using the heart’s own energy to power a pacemaker
The cardiac pacemaker of the future could be powered by the heart itself, according to
New material could enable your body to power your pacemaker and other devices
Prof. Ehud Gazit CREDIT: Tel Aviv University New material could enable your body to power
The power of starch and baking soda to harvest energy from movement
The triboelectric nanogenerator (above) is made using a MOF fabricated with cyclodextrin (circular molecule below).
Harvesting WiFi signals to power small electronics
The research breakthrough was achieved by a team led by Professor Yang Hyunsoo (left). Dr
Flexible energy converters could be just the thing to power wearable devices
The concept of energy harvesting with flexible thermoelectrics shown with a schematic of aerosol jet
A new smart device can harvest daylight and relay it to underground spaces
via NTU A new smart device can harvest daylight and relay it to underground spaces
Using the 5G network to wirelessly power Internet of Things devices
Prototype of mm-wave harvester A Georgia Tech ATHENA group member holds an inkjet-printed prototype of
A “wearable microgrid” harvests and stores energy from the human body to power small electronics.
The wearable microgrid uses energy from human sweat and movement to power an LCD wristwatch
Powering smart devices using only indoor light
via Imperial College London Powering smart devices using only indoor light Researchers have developed environmentally
Scavenging invisible power from low-frequency vibrations in the surrounding environment with triboelectric nanogenerators
PhD candidate Mohammad Khorsand and Professor Youhong Tang with the TENG prototype at Flinders University,