Materials Processing Center

This image from a scanning electron microscope shows a cross section of an object printed using cellulose. The inset shows the surface of the object.

3-D printing with cellulose

World’s most abundant polymer could rival petroleum-based plastics as source of printing feedstock.

March 3, 2017

MIT Pappalardo Fellow in physics Itamar Kimchi studies unusual behavior of electrons in transition metal oxides. Frustration of electrons in some materials at extremely low temperatures can force them to abandon their preference for classical magnetic states and instead enter unusual states of collective quantum superposition.

Motivated by the thrill of discovery

Itamar Kimchi studies the physics underlying unusual behavior of electrons in compounds such as transition metal oxides.

February 14, 2017

Using specialized equipment, the MIT team did tests in which they used a pyramidal-tipped probe to indent the surface of a piece of the sulfide-based material. Surrounding the resulting indentation (seen at center), cracks were seen forming in the material (indicated by arrows), revealing details of its mechanical properties.

Toward all-solid lithium batteries

Researchers investigate mechanics of lithium sulfides, which show promise as solid electrolytes.

February 2, 2017

Decision points for the first player in an “envelope game” are graphed like the branches of a tree. In a game with two players, each has a potential payoff, but the first one’s actions determine the second one’s payoff in each round. Choices whether to gather more information by looking in an envelope that contains either a high or a low temptation and whether to cooperate or defect from t...

Using evolutionary dynamics and game theory to understand personal relations

MIT biophysicists apply mathematics from evolutionary biology to describe a surprising aspect of human behavior.

January 5, 2017

MIT postdoc Jörn Venderbos (left) and graduate student Vladyslav Kozii co-authored a new paper with Biedenharn Career Development Assistant Professor of Physics Liang Fu proposing that a class of superconducting materials can host Majorana fermions near absolute zero, and their existence can be verified using nuclear magnetic resonance.

Majorana fermions predicted in a superconducting material

MIT researchers propose a new method for verifying the existence of a theoretical quasiparticle.

December 21, 2016

Solidified cross-sections from aluminum ingots were made using a conventional method (top) and a new jet metal process developed by MIT researchers. “The introduction of the jet induced a completely different recirculation of the grains, and therefore you get different microstructure all along the section,” says MIT Assistant Professor Antoine Allanore.

Agitating the aluminum pot

MIT researchers demonstrate that strong churning during hot liquid state can produce stronger, more uniformly structured large aluminum casts.

December 7, 2016

Left to right: Yashu Kauffman, director of assessment and evaluation for AIM Photonics Academy at MIT; Brian Anthony, director of MIT’s master of engineering in manufacturing program; and Abraham Michelen, Advanced Technological Education Council member and professor at Hudson Valley Community College, lead a roundtable discussion on roadmap competency needs in integrated photonics manufacturing...

Commercializing integrated photonics

AIM Photonics fall meeting attendees tackle plans for making computer chips with integrated optical devices and developing a regional workforce.

November 30, 2016

Glen Merfeld, product science leader at GE Global Research, points to almost 40,000 wind turbines installed globally during the 2016 Materials Day Symposium at MIT.

Battery challenges: cost and performance

Industry speakers and MIT faculty offer solutions to problems ranging from small portable devices to large fixed installations.

November 2, 2016

MIT graduate student Changmin Lee stands by an experimental setup that uses light pulses to map the magnetic direction and strength of a buried interface between two exotic materials, bismuth selenide and europium sulfide.

Mapping buried magnetism

MIT researchers use an optical technique to probe magnetism at a hidden interface between two exotic thin films.

October 25, 2016

Robert Macfarlane, the AMAX Assistant Professor of Materials Science and Engineering at MIT, holds vials of gold nanoparticles. Macfarlane designs nanoscale crystal structures whose assembly is activated by mutually attractive “sticky ends.”

Faculty highlight: Robert Macfarlane

MIT chemist constructs nanoparticle-based crystals by programming interactions of synthetic polymers and biopolymers at the molecular level.

October 14, 2016

Jessika Trancik, associate professor of energy studies at MIT, will present at the annual Materials Day Symposium.

Batteries power clean energy transformation

Materials Day Symposium will highlight strong potential to cut greenhouse gases with electric cars, solar and wind energy storage.

October 6, 2016

Summer Scholar Justin Cheng holds an experimental sample of nanostructured gold on silicon that has potential for use in sensors and display technologies based on its selective light absorption properties.

Tiny gold grids yielding secrets

Summer Scholar Justin Cheng explores process in Berggren group for making ordered metal nanostructures that display interesting new properties.

September 7, 2016

MPC-CMSE Summer Scholar Victoria Yao shows a mixture of sodium thiosulfate being stirred in a solution of copper hexacyanoferrate where its reacts to produce larger compounds that can be filtered out of the solution. These compounds are being developed for use in electrodes for a water-based flow-driven battery for grid level storage.

Designing safe, cheap batteries for grid level storage

Summer Scholar Victoria Yao experiments with water-based, flow-driven battery concept in Brushett Lab.

September 1, 2016

This summer, Jennifer Coulter worked on modeling the behavior of ferromagnetic particles with Alfredo Alexander-Katz, the Walter Henry Gale Associate Professor of Materials Science and Engineering at MIT.

Modeling how colloidal particles spin through a fixed array

Summer Scholar Jennifer Coulter works on computer simulations with associate professor of materials science Alfredo Alexander-Katz.

August 29, 2016

Summer Scholar Grant Smith looks into a sputter deposition chamber, where he makes ultrathin films — from 2 to 10 nanometers thick — of magnetic materials suitable for spin-based electronics such as those used in computer memory systems.

Booting up spin-based device studies

Summer Scholar Grant Smith works to establish parameters for making ferromagnetic thin films in the Luqiao Liu lab.

August 15, 2016

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