Researchers at North Carolina State University have developed a new device that leverages magnetic fields and kirigami design ...

A new device utilizing magnetic fields and kirigami design allows for the delicate manipulation of objects without grasping.

Researchers have developed a novel device that couples magnetic fields and kirigami design principles to remotely control the movement of a flexible dimpled surface, allowing it to manipulate objects ...

NC State's magnetic kirigami metasheet technology offers a novel solution for manipulating fragile objects remotely, ...

The line also includes customized air-operated models. With simplified operational setup, users can realize the full potential of lifting magnets without the need for additional equipment, the company ...

Researchers have developed a novel device that couples magnetic fields and kirigami design principles to remotely control the ...

In these devices, when the magnetization directions of the two magnetic layers are aligned (parallel), the resistance is low; when they are opposite (antiparallel), the resistance is high.

Spin-transfer torque magnetoresistive random access memory (STT-MRAM) has recently replaced embedded Flash as the embedded non-volatile memory of choice for advanced applications. This Review ...

In areas where robotic arms cannot be deployed, researchers are using magnetic actuation along with a little bit of help from ...

Exposures ranging from the magnets in a wearable device, to welding equipment or certain motor types ... Your healthcare provider may ask you to restrict vigorous activity, like running or lifting ...