A single gold nanoparticle tends to absorb within a narrow band. Much of its strongest response sits in visible wavelengths.

Overview: Energy harvesting allows IoT devices to draw power from their environment, removing the need for traditional ...

The number of ways to harvest energy that would otherwise go unused and wasted is extraordinary. To cite a few of the many examples, there’s the heat given off during almost any physical or electronic ...

Researchers report that gold nanospheres, named supraballs, can absorb nearly all wavelengths in sunlight — including some that traditional photovoltaic materials miss.

Energy harvesting in wireless sensor networks (WSNs) represents a transformative approach to powering distributed sensing systems by converting ambient energy—such as solar, radio frequency, or ...

When you have a bunch of 230 kV transmission lines running over your property, why not use them for some scientific experiments? This is where the [Double M Innovations] YouTube channel comes into ...

The benefits of energy-harvesting technology for sustainability. Details behind different types of energy harvesting. The industries that are leveraging energy-harvesting technology today and what’s ...

To join the CNBC Technology Executive Council, go to cnbccouncils.com/tec Companies including PepsiCo, Intel and Qualcomm are working on breakthroughs in the Ambient ...

TOKYO & NOVI, Mich. & DÜSSELDORF, Germany--(BUSINESS WIRE)--Asahi Kasei Microdevices (AKM) has developed the AP4413, a new series of ultra-low current power management ICs (PMICs) ideal for battery ...

The market growth of low-power wireless devices particularly sensors is driving tremendous interest in using energy sources that can power the devices autonomously. The cost of running wires and the ...