Add to ORKGAbstract- Autonomous microsystems are confronted today to a major challenge: the one of energy supply. Energy scavenging, i.e. collecting energy from the ambient environment has been developed to answer this problematic. Various sources have already been successfully used (solar, vibration). This article presents temporal variations of temperature as a new source of exploitable energy. A brief review will take place at the beginning, exposing the different approaches used in the past. Then we will focus our attention on hybridization of magnetism and piezoelectricity. A new kind of thermal generator is proposed and a preliminary model is exposed. Conclusions will be drawn on the suitability of this prototype and the improvements that are ne...
The rise of global energy demand and the effects of climate change make efficient energy generation ...
This paper discusses about the alternative source of energy by using piezoelectric materials which c...
Between 20% to 50% of industrial energy input is lost as waste heat in the form of hot exhaust gases...
Abstract- Autonomous microsystems are confronted today to a major challenge: the one of energy suppl...
Thermal energy harvesting from ambient heat into electricity is of interest due to its wide potentia...
This Ph.D. thesis is focused on the energy supply of communicating electronic microsystems. The ulti...
ISBN 978-1-4244-4190-7International audienceThis paper presents an original energy harvester making ...
This paper deals with a new design of a thermo-magnetically activated piezoelectric generator. This ...
ABSTRACT: Increasing demand in mobile, autonomous devices has made the issue of energy harvesting a ...
International audienceThis work gives experimental evidence of a promising method of thermal-to-elec...
A device that has the potential to provide electrical power to wireless sensors is investigated in t...
International audienceA disruptive approach to thermal energy harvesting is presented. The new techn...
This paper discusses the recent progress in micromachined energy harvesting for low power applicatio...
From smart phones to smart buildings, many modern devices are programmed to self-monitor their envir...
This paper discusses the recent progress in micromachined energy harvesting for low power applicatio...
The rise of global energy demand and the effects of climate change make efficient energy generation ...
This paper discusses about the alternative source of energy by using piezoelectric materials which c...
Between 20% to 50% of industrial energy input is lost as waste heat in the form of hot exhaust gases...
Abstract- Autonomous microsystems are confronted today to a major challenge: the one of energy suppl...
Thermal energy harvesting from ambient heat into electricity is of interest due to its wide potentia...
This Ph.D. thesis is focused on the energy supply of communicating electronic microsystems. The ulti...
ISBN 978-1-4244-4190-7International audienceThis paper presents an original energy harvester making ...
This paper deals with a new design of a thermo-magnetically activated piezoelectric generator. This ...
ABSTRACT: Increasing demand in mobile, autonomous devices has made the issue of energy harvesting a ...
International audienceThis work gives experimental evidence of a promising method of thermal-to-elec...
A device that has the potential to provide electrical power to wireless sensors is investigated in t...
International audienceA disruptive approach to thermal energy harvesting is presented. The new techn...
This paper discusses the recent progress in micromachined energy harvesting for low power applicatio...
From smart phones to smart buildings, many modern devices are programmed to self-monitor their envir...
This paper discusses the recent progress in micromachined energy harvesting for low power applicatio...
The rise of global energy demand and the effects of climate change make efficient energy generation ...
This paper discusses about the alternative source of energy by using piezoelectric materials which c...
Between 20% to 50% of industrial energy input is lost as waste heat in the form of hot exhaust gases...