Center for Bits and Atoms

Illustration of what looks like the inside of a cell, with folded and twisted blobs representing proteins within the cell and flower-like "spike" proteins protruding from the outside of the cell

Volta Labs: Improving workflows for genetic applications

Udayan Umapathi SM ’17 and Will Langford SM ’14, PhD ’19 are co-founders of a Media Lab spinoff building a full-stack platform to enable automation for genomics and genetic engineering.

October 14, 2021

historic letter shown in various stages of unfolding

Researchers virtually open and read sealed historic letters

History unfolds as an interdisciplinary research team uses computational tools to examine the contents of “locked” letters.

March 2, 2021

Toward a disease-sniffing device that rivals a dog’s nose

Trained dogs can detect cancer and other diseases by smell. A miniaturized detector can analyze trace molecules to mimic the process.

February 17, 2021

False-color image showing particles and gases emanating from a person's mouth

Slowing the spread of Covid-19

As cases increased worldwide this spring, mechanical engineers developed solutions to help slow and stop the spread of the coronavirus.

November 30, 2020

Nazli Choucri, Catherine Drennan, Peter Fisher, Daniela Rus, Ju Li, and Neil Gershenfeld.

Six MIT faculty elected 2020 AAAS Fellows

Choucri, Drennan, Fisher, Gershenfeld, Li, and Rus are recognized for their efforts to advance science.

November 24, 2020

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

Photo of a hand holding up a 3D-printed lamp

Leveraging a 3D printer “defect” to create a new quasi-textile

Tulle-like DefeXtiles can be 3D printed with no custom software or hardware.

October 26, 2020

Nature-inspired CRISPR enzymes for expansive genome editing

Applied computational biology discoveries vastly expand the range of CRISPR’s access to DNA sequences.

May 19, 2020

Robyn Goodner, who serves as a maker technical specialist for Project Manus, models the face shield design in the Metropolis Makerspace.

MIT initiates mass manufacture of disposable face shields for Covid-19 response

A team from MIT has designed disposable face shields that can be mass produced quickly to address hospitals’ needs nationwide.

March 31, 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

Photo shows two prototype assembler robots at work putting together a series of small units, known as voxels, into a larger structure.

Assembler robots make large structures from little pieces

Systems of tiny robots may someday build high-performance structures, from airplanes to space settlements.

October 16, 2019

MIT graduate student Will Langford developed a machine that's like a cross between a 3-D printer and the pick-and-place machines that manufacture electronic circuits, but that can produce complete robotic systems directly from digital designs. (Video in "Related" sidebar below shows the assembly of a machine from five standard parts.)

Tiny motor can “walk” to carry out tasks

Mobile motor could pave the way for robots to assemble complex structures — including other robots.

July 2, 2019

New way of fabricating aircraft wings could enable radical new designs, such as this concept, which could be more efficient for some applications.

MIT and NASA engineers demonstrate a new kind of airplane wing

Assembled from tiny identical pieces, the wing could enable lighter, more energy-efficient aircraft designs.

March 31, 2019

Microfilaments made using a new 3D printing method, shown in gray in this illustration, form a structure that cells, shown in color, can adhere to. The shapes formed by the filaments determine the very uniform shapes of cells.

New 3-D printing approach makes cell-scale lattice structures

System could provide fine-scale meshes for growing highly uniform cultures of cells with desired properties.

March 25, 2019

Artisans working with fashion company Soko are able to boost their income fivefold in a matter of months, according to the company.

Empowering impoverished artisans through fashion

Soko uses a mobile-based supply chain to give artisans in Kenya access to the fashion world.

January 3, 2019

MIT News | Massachusetts Institute of Technology

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