Quantum Science & Technologies
Source: https://engineering.nyu.edu/impact/quantum Parent: https://engineering.nyu.edu/
Realizing the promise of quantum science & technology
Quantum science has the potential to revolutionize technologies across multiple domains, from computing and communications, to sensors and secure data transmission, to global logistics and infrastructure security. However, the journey to realizing quantum’s full promise has been hindered by a fragmented landscape across academia, industry, and government characterized by ad-hoc collaboration.
At NYU, we see an opportunity to change this dynamic by creating a uniquely collaborative ecosystem that bridges disciplines and sectors. Our goal is to dramatically accelerate innovation in quantum materials and systems by fostering deep collaboration across diverse fields — from physics and engineering to computer science and materials — around real-world impact in healthcare, finance, cybersecurity, communications, and climate sustainability.
Academic Programs
Bachelor's Degrees
- Chemical and Biomolecular Engineering
- Computer Engineering
- Electrical and Computer Engineering
- Electrical Engineering
- Mathematics
- Physics and Mathematics\
Minors
Master's Degrees
- Chemical Engineering
- Computer Engineering
- Cybersecurity+
- Electrical Engineering
- Mathematical Science
- Mechatronics & Robotics
- Quantum Science & Technology
Doctorate Degree
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Available Online and On Campus
Hands-on Learning: Vertically Integrated Projects
Vertically Integrated Projects (VIP) are multi-year, multidisciplinary projects that emphasize innovative and research-active education.
High Performance Computing
Understand the use of advanced computing in research projects: Design, Deploy, Configure, and Optimize High Performance Computing clusters
OptiReality: The Optimal AI Solution for Virtual Reality
Enabling real-time immersive AR/VR with efficient generative AI algorithms and edge deployment.
Latest Stories & Events
Tandon in the Media
Researchers Demonstrate Substrate Design Principles for Scalable Superconducting Quantum Materials
From Brookhaven National Laboratory
Tandon in the Media
Stable superconductors? It all depends on the substrate
From Tom’s Hardware
Tandon in the Media
Quantum Dots Offer an Eco-Friendly Alternative for Infrared Imaging
From Technology Networks, September 25, 2025
Tandon in the Media
NYU Launches Quantum Institute to Drive Cross-Disciplinary Research and Innovation
From The Quantum Insider
News
Industry and Academic Leaders Herald the Dawn of a New Quantum Era — And NYU Is Poised to Play a Major Role
Press Release
NYU Tandon joins select group offering Master's Degree in Quantum Technologies
Research Labs and Groups
Nanofabrication Cleanroom
Building the future of quantum and enabling cutting-edge research in biosensing by transforming advanced materials into next-generation devices
Pine Research Group
We study the physics of soft mesoscopic materials, sometimes known as complex fluids. We investigate colloids, emulsions, polymers, surfactant solutions, non-Brownian suspensions, gels...
PicoForce Lab
Riedo Group — Understanding and manipulating solids and liquids at the nanoscale is a matter of continuously growing scientific and technological interest. Our mission is to develop novel scanning probe microscopy-based methods for fabricating the next generation of electronic and biomedical devices, as well as for groundbreaking studies of the mechanical, physical, and chemical properties of novel nanomaterials, including 2D materials and bio-interfaces.
NYU Nanolab
Our research team studies the physics of electronic materials and their application in building devices and circuits. We are an experimental group with experience in the synthesis of layered materials, nanofabrication of electronic devices, and electrical measurements at both room and cryogenic temperatures.