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AutoAlign Quantum Dot Nanoswitches

Engineering & Physical Sciences
Electronics
Semiconductors, MEMS & Nanotechnology
College
College of Engineering (COE)
Researchers
Berger, Paul "Paul R."
Licensing Manager
Hong, Dongsung Hong.923@osu.edu

T2001-107 Mass producible quantum dot design with tight tolerance manufacturing.

The Need

The differences between quantum dots and larger devices are the properties of quantum dots are closely related to size and shape. Until recently, quantum dots have suffered from at least one of the following issues the inability to create quantum dots in an exact location, to create quantum dots in exact sizes and shapes, and to make reliable electrical connections to the quantum dot. There is a need for fast, affordable, and repeatable techniques to manufacture quantum dots.

    The Technology

    Researchers at The Ohio State University, led by Dr. Paul Berger, have developed AutoAlign Quantum Dots to overcome the limitations of existing quantum dot structures. The novelty of AutoAlign Quantum Dots is related to the material configuration and method of production. These novel aspects allow the invention to take advantage of the phenomenon known as quantum mechanical tunneling.

    Commercial Applications

    • Optoelectronics
    • OLED/LCD displays
    • Cellular imaging
    • Solar cells

    Benefits/Advantages

    • Mass producible using conventional processes (e.g., CMOS)
    • Tight tolerance manufacturing
    • Fast, low power, and efficient relative to other technologies
    • Can be tailored to the specific requirements of various applications