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Methods for the Design of Amorphous Semiconductors with Unique Band Gap Properties for Distinctive Electronic and Phononic Transport Properties
Princeton Docket # 13-2914
Research in the department of chemistry and department of physics, Princeton University, has led to improved methods for controlling and altering band gaps in commercially useful...
Published: 3/15/2018
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Inventor(s): Paul Steinhardt, Salvatore Torquato, Miroslav Hejna
Keywords(s):
Category(s): Opto-Electronics/ Electrical Engineering
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Photonic solids are materials used to control the flow of light in optical applications, analogous to semiconductors in electronic applications. Also referred to as photonic band gap materials, they typically consist of a latticework composed of two interpenetrating substances with different indices of refraction (e.g., silicon and air), arranged so...
Published: 3/15/2018
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Inventor(s): Paul Steinhardt, Marian Florescu, Salvatore Torquato
Keywords(s):
Category(s): Opto-Electronics/ Electrical Engineering, Computers and Software, Ceramics/Material Sciences
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Princeton University Invention # 06-2217
Researchers
in the Department of Physics, Princeton University have developed an optical
device known as an icosahedral photonic quasicrystal. The significance of such a
device is that it makes it possible to control which bands of photons are passed
through and which are blocked. The
studies performed...
Published: 3/15/2018
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Inventor(s): Paul Chaikin, Weining Man, Paul Steinhardt
Keywords(s):
Category(s): Opto-Electronics/ Electrical Engineering
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