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Self-assembly

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Close-up of a dress neckline on a mannequin being targeted by a laser

Is this the future of fashion?

Developed by the Self-Assembly Lab, the 4D Knit Dress uses several technologies to create a custom design and a custom fit, while addressing sustainability concerns.

March 7, 2024

Surrounded by 3 students, Kolle, center, reaches for an object. They are inside a lab.

Coloring outside the lines

Mathias Kolle’s color-changing materials take inspiration from butterflies and mollusks.

July 16, 2023

Small plasticky objects of myriad shapes and sizes form a colorful cube with very little wasted space. An inset shows a close-up of perfectly packed doodads and gewgaws.

The chore of packing just got faster and easier

A new computational method facilitates the dense placement of objects inside a rigid container.

July 6, 2023

Against a dark background and in colorful, vivid light, about 200 worms are in ball. They are somewhat transparent.

How to untangle a worm ball: Mathematicians solve a knotty mystery

California blackworms tangle themselves up by the thousands, then separate in a split second. Their trick may inspire the design of self-detangling materials and fibers.

April 27, 2023

An eel-like underwater robot is in the MIT tow tank. The front is connected by wires while the back has lattice-like pieces attached end-to-end in a long row to form a meter-long, snake-like structure.

Engineers devise a modular system to produce efficient, scalable aquabots

The system’s simple repeating elements can assemble into swimming forms ranging from eel-like to wing-shaped.

February 6, 2023

Illustration showing manufacturing parts in the simulation pipeline. In top three panels, a rod and several nuts and bolts are being fastened to a rectangular plate; in the bottom three panels, a cylindrically shaped motor is being assembled.

An automated way to assemble thousands of objects

A new algorithm for automatic assembly of products is accurate, efficient, and generalizable to a wide range of complex real-world assemblies.

December 7, 2022

A structure is made from identical voxels that are attached together, making an arch. Circuit boards and wires are present in a few voxels. The voxels are somewhat spherical shaped and hollow, with square and triangular sides.

Flocks of assembler robots show potential for making larger structures

Researchers make progress toward groups of robots that could build almost anything, including buildings, vehicles, and even bigger robots.

November 22, 2022

Grid of 12 photos of black cubes floating in a tank of water, combining and recombining according to their magnetic attraction.

Reprogrammable materials selectively self-assemble

Researchers create a method for magnetically programming materials to make cubes that are very picky about what they connect with, enabling more-scalable self-assembly.

October 20, 2022

Photo of Lavender Tessmer wearing a black face mask in front of a wall full of spools of black and white thread

Fabric + form = a mask that uniquely fits your face

Department of Architecture doctoral candidate Lavender Tessmer has advanced the process to produce textiles that can be individually customized.

July 18, 2022

Micrograph of a cluster of hundreds of hexagonal shapes fitted tightly together, with dots inside each shape

Starfish embryos swim in formation like a “living crystal”

Their swirling, clustering behavior might someday inform the design of self-assembling robotic swarms.

July 13, 2022

TESSERAE habitats

3 Questions: Ariel Ekblaw on building beautiful architecture in space

The TESSERAE project, a design for self-assembling space structures and habitats, has sent prototypes to the International Space Station.

May 11, 2022

Closeup image of three nanoribbons, each a line of blue units encased in several green units and a purple unit on the outside

Researchers construct molecular nanofibers that are stronger than steel

Self-assembly of Kevlar-inspired molecules leads to structures with robust properties, offering new materials for solid-state applications.

January 25, 2021

different types of novel subunits

Versatile building blocks make structures with surprising mechanical properties

The subunits could be robotically assembled to produce large, complex objects, including cars, robots, or wind turbine blades.

November 18, 2020

In the lower left corner of this photograph, researchers prepare a submersible device. “Together with our collaborators in the Maldives, we are designing, testing, building, and deploying submersible devices that, based simply on their geometry in relationship to the ocean waves and currents, promote sand accumulation in specific areas,” says associate professor Skylar Tibbits.

3 Questions: Harnessing wave power to rebuild islands

In the Maldives, an MIT team is conducting experiments to combat sea-level rise by redirecting natural sand movement.

May 11, 2020

The Maldives, a chain of islands in the Indian Ocean, are at risk of erosion and, at worst, submersion from rising sea levels. MIT's Skylar Tibbits is conducting field experiments with a group called Invena in the Maldives to harness the power of waves with underwater bladders to promote sand accumulation where it is most needed to protect shorelines from flooding.

Transformation by design

Skylar Tibbits makes materials that water, heat, or mechanical forces can alter into new shapes.

November 27, 2019