Will Robots Soon Look Like Humans? The Era of Liquid Metal and Biomimetic Skin Has Arrived

Will Robots Soon Look Like Humans? The Era of Liquid Metal and Biomimetic Skin Has Arrived

In today’s rapidly evolving robotics technology, breakthroughs in materials science are quietly transforming our imagination of “future robots.” From liquid metals with deformable capabilities to flexible biomimetic skin that can simulate human touch and appearance, a series of cutting-edge materials are enabling robots to evolve quickly from “cold machines” to “humanoid partners.” Materials are no … Read more

The Way in Silicon: Natural Laws in Circuit Boards

The Way in Silicon: Natural Laws in Circuit Boards

On the nanoscale copper foil circuits, current travels at the speed of light between transistors. This precise creation of modern technology resonates wonderfully with the “Way” described by Laozi two thousand years ago, creating a remarkable harmony in the folds of time and space.When we examine circuit boards from a Taoist perspective, we find that … Read more

Seamless Multi-Node Networking: Interference Resistance and Self-Healing! The Technical Secrets of Wireless Self-Organizing Networks

Seamless Multi-Node Networking: Interference Resistance and Self-Healing! The Technical Secrets of Wireless Self-Organizing Networks

In large exhibitions, disaster rescue, military exercises, and other scenarios, when dozens or even hundreds of devices simultaneously connect to a wireless self-organizing network, issues such as “insufficient bandwidth, signal interruptions, and difficulty in resisting interference” often become pain points. However, wireless self-organizing network devices are designed with four core technologies, which can maintain stable … Read more

Professor Yu Shuhong, Professor Cong Huaiping, and Others in Adv. Mater.: Soft Microrobots Driven by Low Magnetic Fields

Professor Yu Shuhong, Professor Cong Huaiping, and Others in Adv. Mater.: Soft Microrobots Driven by Low Magnetic Fields

Click the blue text to follow us Magnetically driven soft microrobots have great potential in biomedical fields such as targeted drug delivery and minimally invasive surgery due to their high controllability, biocompatibility, and remote control advantages. However, traditional magnetic robots rely on high-intensity magnetic fields (usually requiring hundreds of milliteslas), which are not only costly … Read more