"
Researchers demonstrate the first chip-based 3D printer
by Adam Zewe , Massachusetts Institute of Technology
The chip-based 3D printer concept. Photographs showing a a typical commercial 3D printer with a photonic chip (outlined in black) for scale and b a fabricated and packaged photonic chip. c Conceptual diagram of the proposed chip-based 3D printer, showing a hologram formed by a chip within a resin chamber (not to scale). d Conceptual diagram of the proof-of-concept stereolithography-inspired chip-based 3D printer demonstrated in this work (not to scale). Credit: Light: Science & Applications (2024). DOI: 10.1038/s41377-024-01478-2
Imagine a portable 3D printer you could hold in the palm of your hand. The tiny device could enable a user to rapidly create customized, low-cost objects on the go, like a fastener to repair a wobbly bicycle wheel or a component for a critical medical operation.
Researchers from MIT and the University of Texas at Austin took a major step toward making this idea a reality by demonstrating the first chip-based 3D printer. Their proof-of-concept device consists of a single, millimeter-scale photonic chip that emits reconfigurable beams of light into a well of resin that cures into a solid shape when light strikes it.
The prototype chip has no moving parts, instead relying on an array of tiny optical antennas to steer a beam of light. The beam projects up into a liquid resin that has been designed to rapidly cure when exposed to the beam's wavelength of visible light.
By combining silicon photonics and photochemistry, the interdisciplinary research team was able to demonstrate a chip that can steer light beams to 3D print arbitrary two-dimensional patterns, including the letters M-I-T. Shapes can be fully formed in a matter of seconds.
In the long run, they envision a system where a photonic chip sits at the bottom of a well of resin and emits a 3D hologram of visible light, rapidly curing an entire object in a single step.
This type of portable 3D printer could have many applications, such as enabling clinicians to create tailor-made medical device components or allowing engineers to make rapid prototypes at a job site.
"This system is completely rethinking what a 3D printer is. It is no longer a big box sitting on a bench in a lab creating objects, but something that is handheld and portable. It is exciting to think about the new applications that could come out of this and how the field of 3D printing could change," says senior author Jelena Notaros, the Robert J. Shillman Career Development Professor in Electrical Engineering and Computer Science (EECS), and a member of the Research Laboratory of Electronics.
Joining Notaros on the paper are Sabrina Corsetti, lead author and EECS graduate student; Milica Notaros Ph.D. '23; Tal Sneh, an EECS graduate student; Alex Safford, a recent graduate of the University of Texas at Austin; and Zak Page, an assistant professor in the Department of Chemical Engineering at UT Austin. The research is published today (June 6) in Light: Science & Applications.
Printing with a chip
Experts in silicon photonics, the Notaros group previously developed integrated optical-phased-array systems that steer beams of light using a series of microscale antennas fabricated on a chip using semiconductor manufacturing processes. By speeding up or delaying the optical signal on either side of the antenna array, they can move the beam of emitted light in a certain direction.
Such systems are key for lidar sensors, which map their surroundings by emitting infrared light beams that bounce off nearby objects. Recently, the group has focused on systems that emit and steer visible light for augmented-reality applications.
They wondered if such a device could be used for a chip-based 3D printer.
At about the same time they started brainstorming, the Page Group at UT Austin demonstrated specialized resins that can be rapidly cured using wavelengths of visible light for the first time. This was the missing piece that pushed the chip-based 3D printer into reality.
"With photocurable resins, it is very hard to get them to cure all the way up at infrared wavelengths, which is where integrated optical-phased-array systems were operating in the past for lidar," Corsetti says. "Here, we are meeting in the middle between standard photochemistry and silicon photonics by using visible-light-curable resins and visible-light-emitting chips to create this chip-based 3D printer. You have this merging of two technologies into a completely new idea."
Their prototype consists of a single photonic chip containing an array of 160-nanometer-thick optical antennas. (A sheet of paper is about 100,000 nanometers thick.) The entire chip fits onto a U.S. quarter.
When powered by an off-chip laser, the antennas emit a steerable beam of visible light into the well of photocurable resin. The chip sits below a clear slide, like those used in microscopes, which contains a shallow indentation that holds the resin. The researchers use electrical signals to nonmechanically steer the light beam, causing the resin to solidify wherever the beam strikes it.
More information: Sabrina Corsetti et al, Silicon-photonics-enabled chip-based 3D printer, Light: Science & Applications (2024). DOI: 10.1038/s41377-024-01478-2
Journal information: Light: Science & Applications
Provided by Massachusetts Institute of Technology
This story is republished courtesy of MIT News (web.mit.edu/newsoffice/), a popular site that covers news about MIT research, innovation and teaching.
+ Explore further
High-intensity spatial-mode steerable frequency up-converter toward on-chip integration
23 shares
Feedback to editors
Related
Recommended
High-intensity spatial-mode steerable frequency up-converter toward on-chip integration
May 1, 2024
Researchers use liquid crystals to control polarization inside laser-written waveguides
Mar 4, 2024
Chip-based device opens new doors for augmented reality and quantum computing
Mar 19, 2020
Photonic chip transforms single beam of light into multiple beams, each with a panoply of different properties
Jul 3, 2023
New chip-based beam steering device lays groundwork for smaller, cheaper lidar
Aug 4, 2022
Fast-as-lightning 3D microprinting with two lasers
Oct 14, 2022
Load comments (0)
New ransomware attack based on an evolutional generative adversarial network can evade security measures
10 minutes ago
FEATURE
Breaking data transmission barriers: Innovations in data center interconnects
15 minutes ago
Analysis: Weapons potential of high-assay low-enriched uranium fuel poses greater threat than publicly acknowledged
20 minutes ago
AI 'gold rush' for chatbot training data could run out of human-written text
3 hours ago
Solar investment outstrips all other power forms: IEA
9 hours ago
Team proposes hydrogen as alternative to diesel for long-haul trucks
21 hours ago
New study offers a better way to make AI fairer for everyone
23 hours ago
US public opinion on social media is warming to nuclear energy, but concerns remain
23 hours ago
Cutting-edge vision chip brings human eye-like perception to machines
Jun 5, 2024
Scientists develop electrified charcoal 'sponge' that can soak up CO₂ directly from the air
Jun 5, 2024
Future-self chatbot gives users a glimpse of the life ahead of them
Jun 5, 2024
REPORT
Favourites
Subscribe to Newsletter
Full version
About
Topic Settings
Identify the news topics you want to see and prioritize an order.
Save and exit
Cancel
Science X Daily and the Weekly Email Newsletter are free features that allow you to receive your favorite sci-tech news updates in your email inbox
Back to top
GET IN TOUCH
Contact us
OUR PRODUCTS
Phys.org
Medical Xpress
Science X
OTHER PUBLICATIONS
Android app
iOS app
RSS feeds
EXTRAS
Help
FAQ
LEGAL
About
Terms of use
Privacy policy
Science X Account
Premium Account
Newsletter
Archive
© Tech Xplore 2014 - 2024 powered by Science X Network
"
https://techxplore.com/news/2024-06-chip-based-3d-printer.html#:~:text=Home,Science%20X%20Network
No comments:
Post a Comment