MIT School of Engineering
@MITEngineering
Official Twitter account for the MIT School of Engineering.
قد يعجبك
To reduce waste, a team, including researchers in @MITEECS, developed a program that helps users create outlines for adaptable clothing, such as pants that can be reconfigured into a dress. Each of these pieces can be replaced, rearranged, or restyled. news.mit.edu/2025/refashion…
A team, including researchers in @MITEECS, developed a computational imaging approach that scientists can apply to optical data to calculate the most probable location of individual atoms based on the material’s known atomic configuration. news.mit.edu/2025/seating-c…
news.mit.edu
A “seating chart” for atoms helps locate their positions in materials
The new discrete grid imaging technique, or DIGIT, enables optical microscopes to resolve individual atoms and zero in on their exact locations in a crystal structure. The research could help guide...
Marco Graffiedi, a PhD student in @MIT_NSE, is researching quenching, a powerful heat transfer mechanism that is remarkably effective at transporting heat away. nse.mit.edu/using-classic-…
Meet new @MIT_NSE faculty member, Professor Sophia Henneberg! Her research focuses on developing, utilizing, and extending optimization tools to identify new, promising stellarator designs, a promising path toward fusion energy. #NewFacultyFriday news.mit.edu/2025/school-en…
Enzian Pharmaceutics, a startup founded by @MITMechE alum Aron Blaesi PhD ’14 and former principal research scientist Nannaji Saka ScD ’74, is developing an oral tablet that delivers drugs into the gastric fluid and the blood steadily over time. news.mit.edu/2025/startups-…
news.mit.edu
Startup’s tablets deliver cancer drugs more evenly over time
Founded by an MIT team, the startup Enzian Pharmaceutics developed a tablet technology that allows cancer drugs to be delivered more evenly over time, to improve effectiveness and reduce side effects.
In a new @NatureSMB paper, a team, including researchers in @MITdeptofBE and @MIT_IMES, found tiny loops in the genomes of dividing cells. news.mit.edu/2025/surprisin…
news.mit.edu
In a surprising discovery, scientists find tiny loops in the genomes of dividing cells
In a surprising discovery, MIT scientists found tiny loops in the genomes of dividing cells. Enabled by a high-resolution mapping technique, the findings overturn a long-held belief that the genome...
A first-of-its-kind “Nuclear Ship Safety Handbook” by the MIT Maritime Consortium aims to set the standard for safe maritime nuclear propulsion. news.mit.edu/2025/mit-marit…
news.mit.edu
MIT Maritime Consortium releases “Nuclear Ship Safety Handbook”
The MIT Maritime Consortium released the "Nuclear Ship Safety Handbook," which serves as a guide for design safety for civilian nuclear ships. The handbook provides unique insights into potential...
Through the AgeLab at the MIT Center for Transportation and Logistics (CTL), researchers have collected and analyzed vast real-world driving datasets that have helped inform @Toyota’s vehicle design and safety systems. news.mit.edu/2025/mit-toyot…
news.mit.edu
MIT-Toyota collaboration powers driver assistance in millions of vehicles
A decade-plus alliance between MIT’s AgeLab and Toyota’s Collaborative Safety Research Center is recognized as a key contributor to advancements in automotive safety and human-machine interaction.
Meet new @MITAeroAstro faculty member, Professor Masha Folk! Her research focuses on sustainable aerospace technology driven by a deep desire to accelerate carbon-neutral aviation. #NewFacultyFriday news.mit.edu/2025/school-en…
Dina Katabi, a professor in @MITEECS, is one of 100 new members elected to the National Academy of Medicine for 2025. news.mit.edu/2025/mit-affil…
news.mit.edu
Five with MIT ties elected to National Academy of Medicine for 2025
MIT faculty members Facundo Batista and Dina Katabi, along with three additional MIT alumni, were elected to the National Academy of Medicine for 2025, an honor that recognizes their contributions to...
Darcy McRose, a professor in @MIT_CEE, has been named a 2025 Packard Fellow for Science and Engineering. She is among 20 junior faculty named among the nation’s most innovative early-career scientists and engineers. news.mit.edu/2025/darcy-mcr…
news.mit.edu
Darcy McRose and Mehtaab Sawhney ’20, PhD ’24 named 2025 Packard Fellows for Science and Engineering
MIT professor and environmental microbiologist Darcy McRose is named 2025 Packard Fellow for Science and Engineering to pursue her research on secondary metabolites. Her research aims to uncover...
A team led by @MIT_NSE Professor Mingda Li developed a system for evaluating the scale-up potential of quantum materials. news.mit.edu/2025/why-some-…
news.mit.edu
Why some quantum materials stall while others scale
MIT researchers developed a way to evaluate the scale-up potential of quantum materials, combining a material’s quantum behavior with its cost, supply chain resilience, and environmental footprint....
In a new @NatureBiotech paper, a team led by @MITChemE Professor Katie Galloway designed a new control mechanism that allows them to establish a desired protein level, or set point, for any gene circuit. news.mit.edu/2025/new-syste…
news.mit.edu
A new system can dial expression of synthetic genes up or down
MIT engineers designed a control mechanism, known as DIAL, that allows them to establish a desired protein level, or set point, for any synthetic gene circuit.
A team, including researchers in @MITEECS, has found a way to create the diverse, realistic training grounds robots need. Their approach creates digital scenes of places that engineers can use to simulate many real-world interactions and scenarios. news.mit.edu/2025/using-gen…
In a new @NatureComms paper, a team, including researchers in @MIT_DMSE, discovered a hidden atomic order that persists in metals even after extreme processing. news.mit.edu/2025/uncoverin…
news.mit.edu
Uncovering new physics in metals manufacturing
MIT researchers found that subtle chemical patterns persist in conventionally manufactured metal alloys, despite the mixing involved. The surprising finding could be used to tune metallic properties...
In a new @NatureComms paper, a team, including researchers in @MITAeroAstro, has developed a new method that can predict how plasma will behave in a tokamak reactor given a set of initial conditions. news.mit.edu/2025/new-predi…
news.mit.edu
New prediction model could improve the reliability of fusion power plants
MIT scientists developed a method to predict how plasma in a tokamak fusion machine will behave during a rampdown, when the reactor’s plasma current is shut off. The research could improve the safety...
A team, including researchers in @MITMechE, developed a printable aluminum alloy that can withstand high temperatures and is five times stronger than traditionally manufactured aluminum. news.mit.edu/2025/printable…
news.mit.edu
Printable aluminum alloy sets strength records, may enable lighter aircraft parts
MIT engineers have developed a recipe for a printable aluminum alloy that can withstand high temperatures and is five times stronger than traditionally manufactured aluminum.
A team at MIT, including researchers in @MIT_CEE, has developed electron-conducting carbon concrete, a new kind of cement that can store and release electricity like batteries. news.mit.edu/2025/concrete-…
news.mit.edu
Concrete “battery” developed at MIT now packs 10 times the power
New concrete and carbon black supercapacitors with optimized electrolytes have 10 times the energy storage of previous designs and can be incorporated into a wide range of architectural forms.
In a new @Nature paper, a team, including researchers from @MIT_DMSE and @MIT_NSE, has developed a method for optimizing materials recipes and planning experiments that incorporates information from diverse sources. news.mit.edu/2025/ai-system…
Chloe Gentgen, a PhD student in @MITAeroAstro, co-authored a recent study from the Engineering Systems Lab, finding that @SpaceX’s Starship may enable a flagship mission to Uranus in half the flight time. news.mit.edu/2025/3-questio…
news.mit.edu
3 Questions: How a new mission to Uranus could be just around the corner
A new study from MIT researchers finds that with on-orbit refueling, SpaceX's Starship rocket could get a flagship mission to Uranus in half the time of a Falcon Heavy launch.
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