Chemical Engineering

Researchers unlock a new means of growing intestinal stem cells

Studying these cells could lead to new treatments for diseases ranging from gastrointestinal disease to diabetes.

December 1, 2013

Illustration of a human head and neck with the esophagus highlighted

Pills of the future: nanoparticles

Researchers design drug-carrying nanoparticles that can be taken orally

November 27, 2013

MIT chemical engineers created this sensor that can recognize riboflavin by coating a carbon nanotube with amphiphilic polymers.

Creating synthetic antibodies

Synthetic polymers coating a nanoparticle surface can recognize specific molecules just like an antibody.

November 24, 2013

A slightly asymmetrical particle flows along the center of a microfluidic channel.

Self-steering particles go with the flow

Asymmetrical particles could make lab-on-a-chip diagnostic devices more efficient and portable.

November 8, 2013

Turning bacteria into chemical factories

Kristala Jones Prather engineers cells to produce useful compounds such as drugs and biofuels.

November 6, 2013

Postdoc Nicole Iverson demonstrates the instrument used to measure the fluorescent signal from nanotube sensors that detect nitric oxide.

New implantable sensor paves way to long-term monitoring

Carbon nanotubes that detect nitric oxide can be implanted under the skin for more than a year.

November 3, 2013

Schematic drawing of a new nanoparticle developed at MIT.

One-two punch knocks out aggressive tumors

New nanoparticles weaken tumor-cell defenses, then strike with chemotherapy drug.

October 21, 2013

Semprus BioScience's biomaterial, called polySB, sprouts a thicket of polymers (pictured on the right) that attract water molecules, creating an impenetrable barrier against microbes.

Creating a permanent bacteria barrier

Startup Semprus Biosciences develops a permanent solution for keeping bacteria off implanted medical devices.

October 11, 2013

A diagram of one of the group's experimental setups shows a copper platethat can be heated using a torch underneath it, to study the effect oftemperature on the process. On top of the plate, an apparatus consistingof two reservoirs separated by a silicon structure that has a singlecarbon nanotube on top of it. When a power source is connected to theelectrodes (the wires extending up ...

A pea-shooter for molecules

Researchers find that tiny molecules passing through nanotubes can be propelled or slowed depending on their size.

September 12, 2013

U.S. News ranks MIT seventh overall among U.S. universities

Institute’s undergraduate engineering program is again ranked No. 1; undergraduate business program is No. 2.

September 10, 2013

Diagram illustrates the newly-discovered reaction that transforms molecules of ketohydroperoxide into acids and carbonyl molecules, after going through intermediate stages.

New low-temperature chemical reaction explained

Unusual reaction, never fully understood, is important to fuel combustion, atmospheric chemistry and biochemistry.

September 4, 2013

Fog rolls in over a hilltop in the Fray Jorge Fog Forest in the Coquimbo semi-arid region of central Chile. Plants in the area are adapted to harvest water from the fog.

How to get fresh water out of thin air

Fog-harvesting system developed by MIT and Chilean researchers could provide potable water for the world’s driest regions.

August 30, 2013

A micrograph of the nanosensor array. The florescence of eachcarbon nanotube changes in intensity upon binding to a target molecule.

Nanosensors could aid drug manufacturing

Chemical engineers find that arrays of carbon nanotubes can detect flaws in drugs and help improve production.

August 16, 2013

Finding the keys to boiling heat transfer

Understanding the properties that control surface dissipation of heat could lead to improved power plants and electronics with high heat-transfer rates.

July 16, 2013

Researchers at MIT and the University of North Carolina created these coated nanoparticles in many shapes and sizes.

Nanoparticles, made to order — inside and out

New research enables high-speed customization of novel nanoparticles for drug delivery and other uses.

July 2, 2013

MIT News | Massachusetts Institute of Technology

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