Three-dimensional (3D) metal–plastic composite structures have widespread potential applicability in smart electronics, micro/nanosensing, internet-of-things (IoT) devices, and even quantum computing.

Whether it’s a 3D printed robot chassis or a stained glass window, looking at a completed object and trying to understand how it was designed and put together can be intimidating. But upon closer ...

Improvements in three-dimensional (3D) scanning have enabled quick and accurate scanning of 3D objects, including cultural heritage objects, as 3D point cloud data. However, conventional ...

A new SAR interpretation method helps reveal the specific sources on three-dimensional targets that correspond to strong ...

MIT biological engineers have created a new computer model that allows them to design the most complex 3D DNA shapes ever produced, including rings, bowls, and geometric structures such as ...

Researchers from the Indian Institutes of Technology have developed a computationally efficient method to track the ...

In recent years, research interest in the 3D printing of metal patterns on plastic parts has grown exponentially, due to its high potential in the manufacturing of next-generation electronics. But ...

In recent years, research interest in the 3D printing of metal patterns on plastic parts has grown exponentially, due to its high potential in the manufacturing of next-generation electronics. But ...