Abstract As interest in Internet‐of‐Things (IoT) devices like wireless sensors increases, research efforts have focused on finding ways for these sensors to self‐harvest energy from the environment in which they are installed. Photovoltaic (PV) cells or mini‐modules are an intuitive choice for harvesting indoor ambient light, even under low light conditions, and using it for battery charging and powering of these devices. Characterizations of battery charging, for small rechargeable batteries from low charge to full charge, have been investigated using PV mini‐modules of equal area. We present battery charging results using three different PV technologies, monocrystalline silicon (c‐Si), gallium‐indium‐phosphide (GaInP), and gallium‐arsenid...
The Electronic Instrumentation Lab at Delft University of Technology desired to have a demonstrator ...
Photovoltaic modules at the millimeter scale are demonstrated in this work to power wirelessly inter...
Over the years, perovskite solar cells have continued to improve, and now the Internet of Things (I...
Indoor photovoltaic cells have the potential to power the Internet of Things ecosystem, including di...
Abstract—Miniaturized systems like wireless microsensors suffer from short operational lifetimes bec...
Nowadays, it can be observed that Wireless Sensors Networks (WSN) are taking increasingly vital role...
With the number of communicating sensors linked to the Internet of Things (IoT) ecosystem increasing...
Photovoltaic cells are attracting significant interest for harvesting indoor light for low power con...
Energy harvesting (EH) was born few decades ago and evolved during the years, however only recently ...
Abstract-Research advances in materials science improved gradually photovoltaic systems efficiency. ...
The work is about automated system that allows characterization of solar cells for low energy applic...
The field of energy harvesting holds the promise of making our buildings "smart" if effective energy...
Part 6: Intelligent EnvironmentsInternational audienceThis paper presents an overview of the PhD the...
With IoT, billions of physical sensors/actuators nodes will be connected to the internet. Due to the...
Wireless sensor nodes are autonomous devices which sense parameters and communicate them wirelessly....
The Electronic Instrumentation Lab at Delft University of Technology desired to have a demonstrator ...
Photovoltaic modules at the millimeter scale are demonstrated in this work to power wirelessly inter...
Over the years, perovskite solar cells have continued to improve, and now the Internet of Things (I...
Indoor photovoltaic cells have the potential to power the Internet of Things ecosystem, including di...
Abstract—Miniaturized systems like wireless microsensors suffer from short operational lifetimes bec...
Nowadays, it can be observed that Wireless Sensors Networks (WSN) are taking increasingly vital role...
With the number of communicating sensors linked to the Internet of Things (IoT) ecosystem increasing...
Photovoltaic cells are attracting significant interest for harvesting indoor light for low power con...
Energy harvesting (EH) was born few decades ago and evolved during the years, however only recently ...
Abstract-Research advances in materials science improved gradually photovoltaic systems efficiency. ...
The work is about automated system that allows characterization of solar cells for low energy applic...
The field of energy harvesting holds the promise of making our buildings "smart" if effective energy...
Part 6: Intelligent EnvironmentsInternational audienceThis paper presents an overview of the PhD the...
With IoT, billions of physical sensors/actuators nodes will be connected to the internet. Due to the...
Wireless sensor nodes are autonomous devices which sense parameters and communicate them wirelessly....
The Electronic Instrumentation Lab at Delft University of Technology desired to have a demonstrator ...
Photovoltaic modules at the millimeter scale are demonstrated in this work to power wirelessly inter...
Over the years, perovskite solar cells have continued to improve, and now the Internet of Things (I...