Materials Science and Engineering

Armon Sharei, CEO and founder of SQZ Biotech.

Squeezing cells to cure diseases

Startup SQZ Biotech aims to open a new path in immunotherapy with its cell-compressing technique.

October 31, 2018

What says "Happy Halloween" better than colorized carbon nanotubes?

Scene at MIT: Happy Nanoween

A grad student's research project unexpectedly yields a spooky message made from millions of carbon nanotubes.

October 31, 2018

By integrating conductive wires along with microfluidic channels in long fibers, the researchers were able to demonstrate the ability to sort cells — in this case, separating living cells from dead ones, because the cells respond differently to an electric field. The live cells, shown in green, are pulled toward the outside edge of the channels, while the dead cells (red) are pulled toward the c...

Inside these fibers, droplets are on the move

Fibers containing systems for mixing, separating, and testing fluids may open up new possibilities for medical screening.

October 29, 2018

MIT engineers grew these mesenchymal stem cells (red, with blue nuclei) on a surface with mechanical properties similar to those of bone marrow.

Helping blood cells regenerate after radiation therapy

Method boosts differentiation of stem cells into mature blood cell types, may help leukemia and lymphoma patients.

October 24, 2018

A collection of mini-spectrometer chips are arrayed on a tray after being made through conventional chip-making processes.

Inexpensive chip-based device may transform spectrometry

Tiny device could replace expensive lab-scale equipment for many applications.

October 23, 2018

School of Engineering third quarter 2018 awards

Faculty members recognized for excellence via a diverse array of honors, grants, and prizes over the last quarter.

October 19, 2018

With an enthusiastic team, Yoel Fink, a professor of materials science and electrical engineering and CEO of Advanced Functional Fabrics of America (AFFOA), a $300 million institute on the edge of campus, is shaping a new destiny for fabrics.

Fabrics are the future

Professor Yoel Fink is helping MIT lead the way in transforming the fabric materials in our lives.

October 12, 2018

Researchers in MIT’s Department of Mechanical Engineering have developed a technique to harvest 2-inch diameter wafers of 2-D material within just a few minutes.

Researchers quickly harvest 2-D materials, bringing them closer to commercialization

Efficient method for making single-atom-thick, wafer-scale materials opens up opportunities in flexible electronics.

October 11, 2018

The Fiat Flux team earned the $10,000 first-place prize for its prototype of a self-cleaning water filtration system. Team members pose with Michael Tarkanian (right), a senior lecturer in the Department of Materials Science and Engineering (DMSE) who runs MADMEC. Team members pictured are: (from left to right) Gabriel Loke, Alvin Tan and Zheng Jie Tan.

MADMEC finals spotlight promising materials science prototypes

Prizes went to solutions for improving water filtration systems, metal fatigue resistance, and boron production.

October 11, 2018

Diagrams illustrate the self-healing properties of the new material. At top, a crack is created in the material, which is composed of a hydrogel (dark green) with plant-derived chloroplasts (light green) embedded in it. At bottom, in the presence of light, the material reacts with carbon dioxide in the air to expand and fill the gap, repairing the damage.

Self-healing material can build itself from carbon in the air

Taking a page from green plants, new polymer “grows” through a chemical reaction with carbon dioxide.

October 11, 2018

MIT researchers have developed a technique to fabricate large squares of graphemes that can filter out small molecules and salts.

Stamp-sized graphene sheets riddled with holes could be boon for molecular separation

Fabrication technique could be integrated into manufacturing to make large-scale membranes.

October 9, 2018

MIT researchers have devised a way to grow a single crystalline compound semiconductor on its substrate through two-dimensional materials. The compound semiconductor thin film is then exfoliated by a flexible substrate, showing the rainbow color that comes from thin film interference.

Study opens route to flexible electronics made from exotic materials

Cost-effective method produces semiconducting films from materials that outperform silicon.

October 8, 2018

Desktop Metal's Studio System is designed to make the production of metal parts an office-friendly experience.

Startup uses 3-D printing to reinvent the production of metal parts

With an MIT alumnus and four professors among its co-founders, Desktop Metal is pushing the boundaries of metal 3-D printing.

October 5, 2018

Takian Fakhrul, a fourth-year PhD student in MIT's Department of Materials Science and Engineering.

Takian Fakhrul: Paving “one-way streets” for light inside photonic devices

PhD student designs materials that help guide light within silicon chips, and seeks to advance materials science in her home country of Bangladesh.

October 2, 2018

A sample of nearly pure copper is deposited on an iron electrode after extraction through an electrochemical process developed by researchers in the lab of MIT Associate Professor Antoine Allanore.

Developing new ways to advance copper production

U.S. Department of Energy grant will support the Allanore lab's advancement of copper production from sulfur-based minerals.

September 25, 2018

MIT News | Massachusetts Institute of Technology - On Campus and Around the world

Browse By

Topics

Departments

Centers, Labs, & Programs

Schools

Department

Squeezing cells to cure diseases

Scene at MIT: Happy Nanoween

Inside these fibers, droplets are on the move

Helping blood cells regenerate after radiation therapy

Inexpensive chip-based device may transform spectrometry

School of Engineering third quarter 2018 awards

Fabrics are the future

Researchers quickly harvest 2-D materials, bringing them closer to commercialization

MADMEC finals spotlight promising materials science prototypes

Self-healing material can build itself from carbon in the air

Stamp-sized graphene sheets riddled with holes could be boon for molecular separation

Study opens route to flexible electronics made from exotic materials

Startup uses 3-D printing to reinvent the production of metal parts

Takian Fakhrul: Paving “one-way streets” for light inside photonic devices

Developing new ways to advance copper production

Browse By

Topics

Departments

Centers, Labs, & Programs

Schools

Breadcrumb

Department

Materials Science and Engineering