Research

Erica Lai ’14 (left), of materials science and engineering, and Jennifer Liu ’14, of electrical engineering and computer science, teamed up to monitor the electricity consumption of various devices plugged into outlets in eight rooms in E62, the new MIT Sloan School of Management building.

Measuring MIT’s plug load

Undergrad project offers glimpse of electricity consumption on campus.

January 9, 2013

Guaranteed delivery — in ad hoc networks

A new algorithm for message dissemination in decentralized networks is faster than its predecessors but, unlike them, guarantees delivery.

January 9, 2013

The first stage of blood clotting is the formation of a plug, seen here, which is made up of platelets (seen in gold) and structures called von Willebrand Factor (vWF), seen in red. The vWF structures are normally present in blood in coiled up form, but in the presence of the flow from a bleeding wound they unfurl to form long, sticky strands, which bind the platelets together.

How to stop leaks — the way blood does

Harnessing the principle that allows blood to clot, MIT researchers are working on new synthetic materials to plug holes.

January 8, 2013

This image shows multiple microfluidic sites in a single system that can be used to conduct many experiments simultaneously.

Tiny tools help advance medical discoveries

MIT researchers are designing tools to analyze cells at the microscale.

January 8, 2013

Jumping-droplet condensation shown on a nanostructured tube.

Research update: Jumping droplets help heat transfer

Scalable nanopatterned surfaces designed by MIT researchers could make for more efficient power generation and desalination.

January 4, 2013

A new technique developed at MIT can edit DNA in precise locations.

Editing the genome with high precision

New method allows scientists to insert multiple genes in specific locations, delete defective genes.

January 3, 2013

Simons Center for the Social Brain offering seed grants, postdoc fellowships

Deadline for applications is February 28.

January 3, 2013

Expression of the synaptic vesicle protein Synaptotagmin (green) at Drosophila synapses (labeled in magenta). Together with the fusion regulator, complexin, these two proteins control the ability of neurons to communicate at synaptic connections.

New insights into how brain synapses transmit information

Two essential proteins regulate the molecular machinery that controls neuronal communication and the release of signals between neurons.

January 2, 2013

Professor Roger Kamm, left, and PhD candidate Ioannis Zervantonakis

Professor Roger Kamm visualizes sneaky tumor cells with 3-D assay

Kamm is studying the mechanics of metastasis, the process of cancer-cell migration from one location in the body to another and the cause of more than 90 percent of cancer deaths.

December 26, 2012

Recent Course X grad named one of Forbes magazine's '30 Under 30'

Pedro Valencia PhD '12 honored for drug research.

December 26, 2012

Photomicrograph of a microcalcification associated with breast cancer.

Improving the accuracy of cancer diagnoses

New spectroscopy technique could help doctors better identify breast tumors.

December 24, 2012

Illustration shows the layered structure of the new device, starting with a flexible layer of graphene, a one-atom-thick carbon material. A layer of polymer is bonded to that, and then a layer of zinc-oxide nano wires (shown in magenta), and finally a layer of a material that can extract energy from sunlight, such as quantum dots or a polymer-based material.

Flexible, light solar cells could provide new opportunities

MIT researchers develop a new approach using graphene sheets coated with nanowires.

December 21, 2012

MIT biologists have found that alternative splicing of messenger RNA accounts for much of the differences seen between species.

Evolution: It’s all in how you splice it

MIT biologists find that alternative splicing of RNA rewires signaling in different tissues and may often contribute to species differences.

December 20, 2012

F. William Herbert of materials science and engineering (left) and Bilge Yildiz of nuclear science and engineering are examining how nanoscale disruptions in the crystalline structure of metals affect those materials’ vulnerability to stress corrosion cracking.

New experiments, new insights into stress corrosion cracking

MIT researchers now have new insights into how 'stress corrosion cracking' may be affected by nanoscale disruptions in the crystalline structure of metallic materials.

December 20, 2012

MIT physicists grew this pure crystal of herbertsmithite in their laboratory. This sample, which took 10 months to grow, is 7 mm long (just over a quarter-inch) and weighs 0.2 grams.

MIT researchers discover a new kind of magnetism

Experiments demonstrate ‘quantum spin liquid,’ which could have applications in new computer memory storage.

December 19, 2012

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