3-D

AIM Biotech's microfluidics device (shown here) has an array of culturing sections, each with three chambers: a middle chamber for hydrogel and any cell type, and two side channels for culturing additional cell types.

Capturing cell growth in 3-D

Spinout’s microfluidics device better models how cancer and other cells interact in the body.

August 14, 2015

Four panel collage of images including a network, wrench, MRI, and bulb

Patents forecast technological change

New method uses patent data to estimate a technology’s future rate of improvement.

April 15, 2015

New horizons for self-assembling materials

3-D-printable materials deform to change surface area, enabling curvature rather than rigid folding.

December 18, 2014

Extreme materials and ubiquitous electronics

Tomás Palacios explores the application of novel materials in next-generation electronics to save energy and expand possibilities.

December 2, 2014

Unlocking the potential of simulation software

Novel software by Akselos drastically increases speed, ease of 3-D engineering simulations.

August 21, 2014

MIT Media Lab researchers have developed a new display technology that automatically corrects for vision defects. (View full screen to see animation.)

Vision-correcting displays

Technology could lead to e-readers, smartphones, and displays that let users dispense with glasses.

July 31, 2014

Before-and-after stills from the video "An End-to-End Approach to Making Self-Folded 3D Surface Shapes by Uniform Heating." The left image shows the self-folding sheet for a humanoid shape, while the right image shows the completed self-folded humanoid shape.

Bake your own robot

New algorithms and electronic components could enable printable robots that self-assemble when heated.

May 30, 2014

Illuminating neuron activity in 3-D

New technique allows scientists to monitor the entire nervous system of a small worm.

May 18, 2014

Glasses-free 3-D projector

New design could also make conventional 2-D video higher in resolution and contrast.

May 16, 2014

NUS collaborator Koay Teong Beng, research associate at Tropical Marine Science Institute (left), and Kelvin Ng Chee-Loon, research scientist at SMART CENSAM (right), launch the LED-induced fluorescence sensor that resides within the NUS ARL STARFISH autonomous underwater vehicle.

New sensor detects contaminants in water in real time

Professor Harold Hemond co-invents groundbreaking device with 3-D mapping capabilities.

February 20, 2014

Shown here are the flexible segments of tubing that James Miller made with varying degrees of curliness. These were used for the lab experiment portions of the research.

The physics of curly hair

Researchers develop first detailed model for a 3-D strand of curly hair.

February 13, 2014

The MakerBot Replicator 2, a 3-D printer that will be used for the IAP session.

Objective reality: 3-D printing gains traction at MIT

MIT Libraries are offering an IAP session (already full) and a brown-bag lunch talk on 3-D printing — technology MIT helped develop years ago that is now entering the mainstream.

January 10, 2014

A screenshot of Visual Earth: Plate Tectonics, which displays data about seafloor age, earthquakes, and volcanoes on a rotating 3-D globe.

As the world turns: Learning about plate tectonics through on-screen interactions

Created by OEIT's ARTEMiS group, the Plate Tectonics interactive visualization challenges students to interpret a 3-D globe of tectonic data, providing animations of the opening and closing of ocean basins and the splitting of Pangaea.

December 11, 2013

The WiTrack system provides significantly increased accuracy in tracking a person’s movement, and can even detect motion through walls and obstructions.

New system allows for high-accuracy, through-wall, 3-D motion tracking

Technology could revolutionize gaming, fall detection among the elderly, and more.

December 11, 2013

Three-dimensional view of stained hippocampus showing fluorescent-expressing neurons (green), connecting interneurons (red) and supporting glia (blue).

New imaging technology can ‘see’ you thinking

A visual voyage inside the ‘clarified’ brain.

December 9, 2013

MIT News | Massachusetts Institute of Technology

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