Trouble in Your Tank: Implementing Direct Metallization in Advanced Substrate Packaging
It’s Only Common Sense: Storytelling That Sells—Stop Pitching, Start Painting Pictures
The Right Approach: Get Ready for ISO 9001 Version 6
Smart Microrobots That Can Adapt to Their Surroundings
January 21, 2019 | EPFLEstimated reading time: 1 minute
One day we may be able to ingest tiny robots that deliver drugs directly to diseased tissue, thanks to research being carried out at EPFL and ETH Zurich.
The group of scientists—led by Selman Sakar at EPFL and Bradley Nelson at ETH Zurich—drew inspiration from bacteria to design smart, biocompatible microrobots that are highly flexible. Because these devices are able to swim through fluids and modify their shape when needed, they can pass through narrow blood vessels and intricate systems without compromising on speed or maneuverability. They are made of hydrogel nanocomposites that contain magnetic nanoparticles allowing them to be controlled via an electromagnetic field.
In an article appearing in Science Advances, the scientists describe the method they have developed for “programming” the robot’s shape so that it can easily travel through fluids that are dense, viscous or moving at rapid speeds.
Embodied Intelligence
When we think of robots, we generally think of bulky machines equipped with complex systems of electronics, sensors, batteries and actuators. But on a microscopic scale, robots are entirely different.
Fabricating miniaturized robots presents a host of challenges, which the scientists addressed using an origami-based folding method. Their novel locomotion strategy employs embodied intelligence, which is an alternative to the classical computation paradigm that is performed by embedded electronic systems. “Our robots have a special composition and structure that allow them to adapt to the characteristics of the fluid they are moving through. For instance, if they encounter a change in viscosity or osmotic concentration, they modify their shape to maintain their speed and maneuverability without losing control of the direction of motion,” says Sakar.
These deformations can be “programmed” in advance so as to maximize performance without the use of cumbersome sensors or actuators. The robots can be either controlled using an electromagnetic field or left to navigate on their own through cavities by utilizing fluid flow. Either way, they will automatically morph into the most efficient shape.
Share on:
Testimonial
"Our marketing partnership with I-Connect007 is already delivering. Just a day after our press release went live, we received a direct inquiry about our updated products!"
Rachael Temple - AlltematedSuggested Items
EV Group Achieves Breakthrough in Hybrid Bonding Overlay Control for Chiplet Integration
09/12/2025 | EV GroupEV Group (EVG), a leading provider of innovative process solutions and expertise serving leading-edge and future semiconductor designs and chip integration schemes, today unveiled the EVG®40 D2W—the first dedicated die-to-wafer overlay metrology platform to deliver 100 percent die overlay measurement on 300-mm wafers at high precision and speeds needed for production environments. With up to 15X higher throughput than EVG’s industry benchmark EVG®40 NT2 system designed for hybrid wafer bonding metrology, the new EVG40 D2W enables chipmakers to verify die placement accuracy and take rapid corrective action, improving process control and yield in high-volume manufacturing (HVM).
United Electronics Corporation Unveils Revolutionary CIMS Galaxy 30 Automated Optical Inspection System
09/11/2025 | United Electronics CorporationUnited Electronics Corporation (UEC) today announced the launch of its new groundbreaking CIMS Galaxy 30 Automated Optical Inspection (AOI) machine, setting a new industry standard for precision electronics manufacturing quality control. The Galaxy 30, developed and manufactured by CIMS, represents a significant leap forward in inspection technology, delivering exceptional speed improvements and introducing cutting-edge artificial intelligence capabilities.
IPS, SEL Raise the Bar for ENIG Automation in North America
09/11/2025 | Mike Brask, IPSIPS has installed a state-of-the-art automated ENIG plating line at Schweitzer Engineering Laboratories’ PCB facility in Moscow, Idaho. The 81-foot, fully enclosed line sets a new standard for automation, safety, and efficiency in North American PCB manufacturing and represents one of the largest fully enclosed final finish lines in operation.
Smart Automation: Odd-form Assembly—Dedicated Insertion Equipment Matters
09/09/2025 | Josh Casper -- Column: Smart AutomationLarge, irregular, or mechanically unique parts, often referred to as odd-form components, have never truly disappeared from electronics manufacturing. While many in the industry have been pursuing miniaturization, faster placement speeds, and higher-density PCBs, certain market sectors are moving in the opposite direction.
U.S. Army Begins Fielding BAE Systems’ Mission-critical Software-defined Radios Across Rotary-wing Aviation Fleet
09/08/2025 | BAE SystemsBAE Systems’ AN/ARC-231A Multi-mode Aviation Radio Set (MARS) has completed initial installation and is operationally ready for use today on select U.S. Army rotary-wing aircraft.