
Using a glass needle made to oscillate with the assistance of ultrasound, liquids can be manipulated and particles can be trapped.
(Photograph: ETH Zurich)
Until now, microscopic robotic systems have had to make do without arms. Now researchers at ETH Zurich have developed an ultrasonically actuated glass needle that can be attached to a robotic arm. This lets them pump and mix minuscule amounts of liquid and trap particles.
We are all familiar with robots equipped with moving arms. They stand in factory halls, perform mechanical work and can be programmed. A single robot can be used to carry out a variety of tasks.
Until today, miniature systems that transport miniscule amounts of liquid through fine capillaries have had little association with such robots. Developed by researchers as an aid for laboratory analysis, such systems are known as microfluidics or lab-on-a-chip and generally make use of external pumps to move the liquid through the chips. To date, such systems have been difficult to automate, and the chips have had to be custom-designed and manufactured for each specific application.
Ultrasound needle oscillations
Scientists led by ETH Professor Daniel Ahmed are now combining conventional robotics and microfluidics. They have developed a device that uses ultrasound and can be attached to a robotic arm. It is suitable for performing a wide range of tasks in microrobotic and microfluidic applications and can also be used to automate such applications. The scientists have reported on this development in Nature Communications.

(Visualisations: ETH Zurich)
The device comprises a thin, pointed glass needle and a piezoelectric transducer that causes the needle to oscillate. Similar transducers are used in loudspeakers, ultrasound imaging and professional dental cleaning equipment. The ETH researchers can vary the oscillation frequency of their glass needle. By dipping the needle into a liquid they create a three-?dimensional pattern composed of multiple vortices. Since this pattern depends on the oscillation frequency, it can be controlled accordingly.

Various vortex patterns in liquids viewed from above and made visible by particles. The dot in the middle of each picture is the glass needle. (Photograph: ETH Zurich)
The researchers were able to use this to demonstrate several applications. First, they were able to mix tiny droplets of highly viscous liquids. “The more viscous liquids are, the more difficult it is to mix them,” Professor Ahmed explains. “However, our method succeeds in doing this because it allows us to not only create a single vortex, but to also efficiently mix the liquids using a complex three-?dimensional pattern composed of multiple strong vortices.”
Second, the scientists were able to pump fluids through a mini-?channel system by creating a specific pattern of vortices and placing the oscillating glass needle close to the channel wall.
Third, they succeeded in using their robot-?assisted acoustic device to trap fine particles present in the fluid. This works because a particle’s size determines its reaction to the sound waves. Relatively large particles move towards the oscillating glass needle, where they accumulate. The researchers demonstrated how this method can capture not only inanimate particles but also fish embryos. They believe it should also be capable of capturing biological cells in the fluid. “In the past, manipulating microscopic particles in three dimensions was always challenging. Our microrobotic arm makes it easy,” Ahmed says.
‘Mixing and pumping liquids and trapping particles – we can do it all with one device.’
Daniel Ahmed
“Until now, advancements in large, conventional robotics and microfluidic applications have been made separately,” Ahmed says. “Our work helps to bring the two approaches together.” As a result, future microfluidic systems could be designed similarly to today’s robotic systems. An appropriately programmed single device would be able to handle a variety of tasks. “Mixing and pumping liquids and trapping particles – we can do it all with one device,” Ahmed says. This means tomorrow’s microfluidic chips will no longer have to be custom-?developed for each specific application. The researchers would next like to combine several glass needles to create even more complex vortex patterns in liquids.
In addition to laboratory analysis, Ahmed can envisage other applications for microrobotic arms, such as sorting tiny objects. The arms could conceivably also be used in biotechnology as a way of introducing DNA into individual cells. It should ultimately be possible to employ them in additive manufacturing and 3D printing.
Original Article: A precision arm for miniature robots
More from: ETH Zürich
The Latest Updates from Bing News
Go deeper with Bing News on:
Microrobotic arms
- What to wear if you have heavy and/or flabby arms
But, something else has happened with age – some parts of my body look different from what they were earlier – like my arms. They are bigger and not necessarily better, in my case. Disclaimer: This ...
- Russia to US: You won’t win the next arms race
The U.S. won't win the next arms race against Moscow, Russian Deputy Foreign Minister Sergei Ryabkov said. “If the U.S. expects to win another arms race … then the Americans are mistaken,” Ryabkov ...
- Russia's Ryabkov warns US against entering new arms race
Nov 29 (Reuters) - If the United States expects to win the next arms race then Washington is mistaken, a senior Russian diplomat said in remarks published on Wednesday, adding that a military ...
- arms workouts
You don't need weight to strengthen and define your arms, and build that envy-inducing horseshoe—these muscle-building moves are proof. Centr co-founder Luke Zocchi has been responsible for most ...
- First Look: Savage Arms KLYM Rifles
Savage Arms has announced the introduction of its new KLYM rifle series, featuring exclusive partnerships with PROOF Research and Fine Ballistic Tools (FBT) to deliver lightweight rifles that are ...
Go deeper with Bing News on:
Miniature robots
- Jennifer Lopez Gives Us I, Robot With Under Boob on the Red Carpet
Lopez accessorized her I, Robot gown with large lizard-shaped diamond earrings, a black clutch, and her hot husband Ben Affleck. She styled her hair in a sleek bun and opted for a dramatic smoky eye ...
- NASA's Mars robots back in action after 'solar conjunction'
NASA's Mars robots are back up to full speed on and around the Red Planet, after a two-week pause in commanding.
- Beeper Mini connects Android users to iMessage
Beeper has produced an Android app that is claimed to actually work with Apple's iMessage system, enabling Android users to communicate with Phone users and displaying blue bubbles, not green ones.
- Bio-Robots: A revolutionary breakthrough in medicine for wound healing and tissue repair
The movement of these miniature bio-robots is orchestrated by microscopic hairs known as "cilia," sourced from the human trachea. Unlike their natural function in clearing respiratory pathways, these ...
- Could These Tiny Biological Robots One Day Replace Risky Open Surgeries?
The future is now, as clusters of human cells are reprogrammed to form living robots that will one day travel through the human body, treating disease.