In recent years, light emitting diodes (LEDs) have begun to change the way we see the world. Now, a Rensselaer student has developed a new type of LED that could allow for their widespread use as light sources for liquid crystal displays (LCDs) on everything from televisions and computers to cell phones and cameras.
Martin Schubert, a doctoral student in electrical, computer, and systems engineering, has developed the first polarized LED, an innovation that could vastly improve LCD screens, conserve energy, and usher in the next generation of ultra-efficient LEDs. Schubert’s innovation has earned him the $30,000 Lemelson-Rensselaer Student Prize.
“In our community of innovators, the Lemelson-Rensselaer Student Prize recognizes our most inspired and dedicated students for their ingenuity and deep understanding of the greater global implications of their innovations,” said Rensselaer President Shirley Ann Jackson. “Martin Schubert is both a talented engineer and inspired entrepreneur. He launched his innovation not only because he had the engineering prowess, but because he also has a remarkable understanding of the technological, environmental, and energy saving outcomes his enlightened innovation will bring. Today we applaud him and the other finalists for their dedication and excellence, and we encourage them to continue to spark informed innovation around the world.”
Schubert is the second recipient of the $30,000 Lemelson-Rensselaer Student prize. The prize, which was first given in 2007, is awarded to a Rensselaer senior or graduate student who has created or improved a product or process, applied a technology in a new way, or otherwise demonstrated remarkable inventiveness.
Schubert’s polarized LED advances current LED technology in its ability to better control the direction and polarization of the light being emitted. With better control over the light, less energy is wasted producing scattered light, allowing more light to reach its desired location. This makes the polarized LED perfectly suited as a backlighting unit for any kind of LCD, according to Schubert. Its focused light will produce images on the display that are more colorful, vibrant, and lifelike, with no motion artifacts.
The invention could advance the effort to combine the power and environmental soundness of LEDs with the beauty and clarity of LCDs. Schubert expects that his polarized LED could quickly become commonplace in televisions and monitors around the world, replacing widely used fluorescent lights that are less efficient and laden with mercury. Schubert is the son of renowned lighting research expert and senior chair of the Rensselaer Future Chips Constellation, E. Fred Schubert. The younger Schubert, who received his bachelor’s and master’s degrees from Cornell University in electrical engineering, was set to pursue a career in computer chip development. But his father quickly identified his skills and ideas for the advancement of lighting technology and recruited him to join the large lighting research effort at Rensselaer.
“Martin Schubert has had the opportunity to work in one of the most advanced and well-known lighting research teams in the world,” said Rensselaer Dean of Engineering Alan Cramb. “And Schubert has shown that not only can he keep up in the lab, but he can also independently excel and innovate. His discovery of the first polarized LED marks an important advance in photonics technology that I am sure will resonate in photonics laboratories and companies around the world. Schubert is absolutely a young engineer to watch.”
Under the tutelage of his adviser, Michael Shur, the Patricia W. and C. Sheldon Roberts ’48 Professor of Solid State Electronics and director of the Rensselaer/IBM Center for Broadband Data Transfer Science and Technology, Schubert has quickly excelled in the field.
The $30,000 Lemelson-Rensselaer Student Prize is funded through a partnership with the Lemelson-MIT Program, which has awarded the $30,000 Lemelson-MIT Student Prize to outstanding student inventors at MIT since 1995.
For photos and video of the winner and award finalists, visit www.rpi.edu/lemelson.
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