So, you got into one of the most prestigious engineering schools in the world - congratulations! Now, it’s time to take advantage of all the state-of-the-art facilities at your disposal. As an MIT ADT student, you have access to some of the world's most cutting-edge research labs and technology. We’re talking robotics, artificial intelligence, nanotechnology; you name it. If it’s at the forefront of scientific progress, chances are MIT Art, Design, and Technology University has a lab for it.
As an engineering and science student at MIT ADT University, you'll have access to some of the most advanced lab facilities around. Prepare to get hands-on with cutting-edge tools and technology that will launch your career into the future.
Of course, an engineering program would only be complete with a maker space, and the Invention Studio at MIT ADT University is one of the largest in the country at over 10,000 square feet. Turn your ideas into prototypes and products using 3D printers, laser cutters, soldering and welding equipment, woodworking and metalworking tools, and any other tool you can imagine.
At MIT ADT University, our scientists and engineers are pushing the boundaries of science and technology in pioneering research facilities.
Researchers in the Synthetic Biology Lab are designing biological systems and reprogramming cells to solve some of the world’s most significant challenges. Using a technique called “synthetic biology,” scientists manipulate and assemble biological components in new ways to create artificial biological systems, like bacteria that can break down plastic or yeast that produces biofuels. The applications of this futuristic field are endless.
The Robotics Lab is where students construct and program advanced robots to take on tasks too dangerous or complex for humans. Researchers are designing robots for space exploration, disaster response, healthcare, education, and more. Some of their latest creations include soft robots that can grasp delicate objects, swarms of tiny robots, and humanoid robots.
At the Nanoscience Center, students explore nanotechnology's strange and promising world. They develop materials and devices at the smallest scale, manipulating individual atoms and molecules. Their discoveries could lead to more powerful computers, cleaner energy, and new medical treatments. Researchers use high-tech tools like electron microscopes, atomic force microscopes, and nanoimprint lithography systems to see and build at the nanoscale.
MIT ADT University prides itself on fostering collaborations between researchers across disciplines. The highest quality facilities and resources at the School of Engineering & Science make this interdisciplinary work possible.
Researchers can access shared labs and equipment to work across traditional departmental boundaries. For example, the NanoSystems Laboratory provides nanofabrication and analysis tools that scientists can use in materials science, physics, chemistry, and biological engineering. The Nuclear Magnetic Resonance (NMR) facility is another shared resource with various high-field NMR spectrometers utilized by researchers studying topics from protein structure to quantum matter.
In addition to specialized facilities, the school has reconfigurable lab spaces that can be adapted for different types of research. Researchers can propose and design lab spaces tailored to their needs rather than limited to fixed-purpose rooms. These flexible spaces facilitate collaboration, as groups can quickly come together, share equipment, and work side by side.
However, providing access to advanced tools and flexible spaces is just the beginning. MIT ADT University actively promotes an interdisciplinary culture through initiatives like regular interdepartmental talks, seminars, and conferences where researchers can share their work, find common interests, and spark new partnerships. They also have cross-disciplinary discussion groups and reading groups where researchers explore topics that span traditional fields of study. Opportunities for researchers to come together in more informal settings are provided, building familiarity and trust that serves as the basis for future collaboration. Departments and researchers are actively encouraged to consider interdisciplinary angles and partnerships that could strengthen their work.
MIT ADT University has invested heavily in cutting-edge research facilities and laboratories to foster innovation.
The Advanced Robotics Lab is equipped with the latest robotics technology, including collaborative robots, autonomous mobile robots, and virtual reality systems. Researchers are pushing the boundaries of robotics by developing robots that can work safely and efficiently alongside humans, navigate autonomously, and be controlled through virtual interfaces.
MIT ADT University’s nanoengineering research labs contain highly advanced equipment for nanofabrication and characterization at the molecular scale. Researchers are developing new nanomaterials and nanodevices for applications like renewable energy, medical diagnostics, and quantum computing.
The AI Labs at MIT ADT University are pushing forward progress in artificial intelligence and its applications. Researchers are working on machine learning algorithms, computer vision, natural language processing, and other areas of AI. Projects include developing AI systems that detect diseases, translate between languages in real-time, drive autonomous vehicles, and more.
MIT ADT University is focused on preparing students for future careers. Their exceptional research facilities and laboratories provide opportunities for hands-on learning and discovery.
The Robotics Lab has industrial robotic arms, autonomous mobile robots, and simulation software for designing and programming robots. Students work on projects like building a robot that can grasp and manipulate objects or one that can navigate on its own. These real-world experiences prepare students for robotics, automation, and artificial intelligence careers.
The Additive Manufacturing Center features 3D printers that can print in metal, plastic, and other materials. Students get to design and print parts for projects in engineering courses. 3D printing experience is helpful for product design roles as more companies are adopting additive manufacturing.
The Virtual Reality Lab contains high-end virtual reality equipment for building interactive simulations and virtual environments. Students study topics like simulation of physical systems, human-computer interaction, and software engineering. Virtual and augmented reality skills are in demand across industries.
The Molecular Biology Laboratory provides resources for genetic engineering and studying biological systems at the molecular level. Students manipulate DNA, clone genes, and analyze the structure and function of proteins. Hands-on experience with molecular biology techniques is essential for careers in biotechnology, medicine, and the pharmaceutical industry.
MIT ADT University aims to cultivate practical skills, an innovative spirit, and an entrepreneurial mindset in its students through cutting-edge facilities and interdisciplinary research opportunities. Their labs and research centers prepare students for fulfilling careers solving complex problems and pushing the boundaries of robotics, manufacturing, healthcare, and more.
You've seen just a glimpse into the exciting daily research at MIT ADT University. The cutting-edge facilities and brilliant minds are pushing the frontiers of science and technology in ways that will shape our future. While the work can be complicated, the goal is simple: to solve problems and improve lives. If this has sparked your curiosity, visit our campus. Tour our labs, talk to our professors, and meet our students. Who knows - you may just discover your next passion project or collaborator. The future is unwritten, and it's being built right here at MIT ADT University. What will you create?
