This work presents novel thermomagnetic energy harvesting principles and demonstrators based on magnetic shape memory alloys (SMA). Sputter deposited ferro- and metamagnetic SMA films are characterized regarding their physical properties to identify suitable materials. Energy harvesting demonstrators achieve power densities of above 100 mW·cm?³ at an average power output of 2.34 µW. Thus, thermomagnetic energy harvesting competes for the first time with state-of-the-art thermoelectrics
Waste heat is an unavoidable and undesirable product of a huge number of industrially important proc...
The magnetocaloric effect, by which a magnetic material experiences a change in temperature due to a...
Many researchers have tried to exploit waste heat to generate electrical power. There are two pheno...
This thesis experimentally studies the possibility of thermal energy harvesting using coupled shape ...
Magnetic shape memory alloys, MSMAs, are modern alloys suitable for harvesting waste energy in low-p...
This paper will study heat engines driven by smart metals also named as Shape Memory Alloys (SMA). I...
The rise of global energy demand and the effects of climate change make efficient energy generation ...
This paper will study heat engines driven by smart metals also named as Shape Memory Alloys (SMA). I...
978-89-967591-0-2International audienceA new concept of thermal-to-electric energy conversion by cou...
A unique multiferroic type of thermomagnetic generator is being investigated in order to establish i...
Magnetic Shape Memory Alloys (MSMAs) combine shape-change/deformationrecovery abilities of heat driv...
Cette thèse porte sur la fabrication et la caractérisation de matériaux magnétiques (films magnétoca...
Nous produisons aujourd’hui des systèmes électroniques à haut niveau d’intégration fonctionnelle que...
Cette thèse étudie expérimentalement la possibilité de récupérer l'énergie thermique en utilisant un...
A thermomagnetic generator is a promising technology to harvest low-grade waste heat and convert it ...
Waste heat is an unavoidable and undesirable product of a huge number of industrially important proc...
The magnetocaloric effect, by which a magnetic material experiences a change in temperature due to a...
Many researchers have tried to exploit waste heat to generate electrical power. There are two pheno...
This thesis experimentally studies the possibility of thermal energy harvesting using coupled shape ...
Magnetic shape memory alloys, MSMAs, are modern alloys suitable for harvesting waste energy in low-p...
This paper will study heat engines driven by smart metals also named as Shape Memory Alloys (SMA). I...
The rise of global energy demand and the effects of climate change make efficient energy generation ...
This paper will study heat engines driven by smart metals also named as Shape Memory Alloys (SMA). I...
978-89-967591-0-2International audienceA new concept of thermal-to-electric energy conversion by cou...
A unique multiferroic type of thermomagnetic generator is being investigated in order to establish i...
Magnetic Shape Memory Alloys (MSMAs) combine shape-change/deformationrecovery abilities of heat driv...
Cette thèse porte sur la fabrication et la caractérisation de matériaux magnétiques (films magnétoca...
Nous produisons aujourd’hui des systèmes électroniques à haut niveau d’intégration fonctionnelle que...
Cette thèse étudie expérimentalement la possibilité de récupérer l'énergie thermique en utilisant un...
A thermomagnetic generator is a promising technology to harvest low-grade waste heat and convert it ...
Waste heat is an unavoidable and undesirable product of a huge number of industrially important proc...
The magnetocaloric effect, by which a magnetic material experiences a change in temperature due to a...
Many researchers have tried to exploit waste heat to generate electrical power. There are two pheno...
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