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Microsystems Technology Laboratories

On left is a tiny rectangular device that is about 20-30 mm. On right is a heatmap of the device that shows the device is hotter in the middle.

Scientists 3D print self-heating microfluidic devices

The one-step fabrication process rapidly produces miniature chemical reactors that could be used to detect diseases or analyze substances.

December 11, 2023

Professor Judy Hoyt is shown smiling gently in her MIT office.

Remembering Professor Judy Hoyt, a pioneer in semiconductor research

Her demonstration of incorporating lattice strain as a means to enhance performance in scaled silicon devices has informed virtually every high-performance chip manufactured today.

December 7, 2023

Moungi Bawendi sits on a sofa in his living room, looking at laptop in front of him on a coffee table and speaking into a cell phone. His wife, Rachel Zimmerman, sits in the background taking his photo on her cellphone.

Photos: Moungi Bawendi’s first day as a Nobel laureate

A look at how the MIT professor spent his day after learning he had won the Nobel Prize in Chemistry.

October 4, 2023

Moungi Bawendi's head and hands appear against a black background and over a rainbow-colored row of vials

MIT Professor Moungi Bawendi shares Nobel Prize in Chemistry

For his work on techniques to generate quantum dots of uniform size and color, Bawendi is honored along with Louis Brus and Alexei Ekimov.

October 4, 2023

A photo depicts the square-shaped sensor next to a quarter, showing its small size. The sensor has square sections and lots of vertical lines, and in one section the lines form a triangular shape. On the top and bottom of the image, there are stripes showing cell bunches.

New sensor mimics cell membrane functions

The device detects the same molecules that cell receptors do, and may enable routine early screening for cancers and other diseases.

July 21, 2023

12 people pose on outdoor steps in front of a wall of windows, some sitting and others standing

Meet the tight-knit technical staff who help MIT.nano handle any challenge

All together, a core group of MIT.nano staffers has more than 400 years of technical experience in nanoscale characterization and fabrication.

June 7, 2023

Jiadi Zhu wears gloves while holding an octagon-shaped plastic case containing 8-inch wafer. On right, a furnace resembling a deep freezer sits in glass casing.

MIT engineers “grow” atomically thin transistors on top of computer chips

A new low-temperature growth and fabrication technology allows the integration of 2D materials directly onto a silicon circuit, which could lead to denser and more powerful chips.

April 27, 2023

The isometric rendering of the 3D-printed vacuum pump shows all the parts, including the housing, lid, rotor, and sample holder. 2 insets show the “tube cross-section” and the “roller,” which is colored green and has many ridges inside chambers.

Researchers 3D print a miniature vacuum pump

The device would be a key component of a portable mass spectrometer that could help monitor pollutants, perform medical diagnoses in remote areas, or test Martian soil.

April 25, 2023

Three MIT students stand side by side wearing MIT.nano t-shirts that say "10^-9." The student in the center is holding a small plastic case featuring the electronic device they fabricated. The student on the left holds a smartphone with the face of another student from the group on the screen.

Learning to design with atoms and molecules

A hands-on class teaches undergraduates the fundamentals of quantum mechanics and nanoscale science from inside MIT.nano’s cleanroom.

March 30, 2023

Graphic illustration showing blue and purple lines in the likeness of auto tail lights captured in a long exposure against a purple background. Mountains made of geometric triangle shapes appear in the background.

MIT-led teams win National Science Foundation grants to research sustainable materials

The teams will work toward sustainable microchips and topological materials as well as socioresilient materials design.

March 21, 2023

A group photo of the more than 110 attendees of QuARC 2023

QuARC 2023 explores the leading edge in quantum information and science

The second annual student-industry conference was held in-person for the first time.

March 3, 2023

13 people in business attire pose for a group photo on a large, white covered porch

Student-led conference charts the future of micro- and nanoscale research, reinforces scientific community

19th Microsystems Annual Research Conference reveals the next era of microsystems technologies, along with skiing and a dance party.

February 22, 2023

A complex receiver chip is in the middle, and has circuits in its center and squares around the edges. Red radio waves try to hit the chip but are blocked by the chip’s glowing edges. A green radio wave enters the chip.

New chip for mobile devices knocks out unwanted signals

The receiver chip efficiently blocks signal interference that slows device performance and drains batteries.

February 21, 2023

On left, a complex metallic lab refrigerator has an inset shows a chip. The chip is enlarged on the right and has 4 squares in the middle of the chip. An arrow represents receiving data.

A new way for quantum computing systems to keep their cool

A wireless technique enables a super-cold quantum computer to send and receive data without generating too much error-causing heat.

February 21, 2023

Tomás Palacios stands in front of a large blue screen which reads "Industry”.

Tomás Palacios named new director of the Microsystems Technology Laboratories

Palacios has served as director of the 6-A MEng Thesis Program, industry officer, and professor of electrical engineering.

December 15, 2022