Molecular Glasses, Inc. Files Patent on Isomeric and Asymmetric Molecular Glass Mixtures for OLED and Other Organic Electronics and Photonics Applications
Rochester, NY, March 26, 2018 --(PR.com)-- Molecular Glasses, Inc. has filed for patent protection for its Isomeric and Asymmetric Molecular Glass Mixtures for OLED and Other Organic Electronics and Photonics Applications. This filing expands Molecular Glasses patent portfolio and converts a provisional application into a full US patent filing. The new patent filing covers a new class of small molecule, soluble, non-crystallizable, isomeric, and asymmetric semiconductor materials. These materials offer device manufacturing flexibility. They are compatible with both the current vacuum/thermal deposition processes as well as ink-jet printing, roll-to-roll, and other solution fabrication processes.
This patent facilitates the synthesis of ambipolar host materials for more efficient and longer life devices. “We expect this technology to significantly impact the industry by enabling lower manufacturing cost for large displays: televisions, advertising, and computer screens,” notes Mike Molaire, CEO and Founder of Molecular Glasses. “Our materials will help increase cell phone, tablet, and computer battery life while enhancing display resolution.”
Molecular Glasses has invented a new class of HIentropy™ NONcrystallizable™ OLED materials that merge the best attributes of the existing technologies into one set of materials that can be used in existing and emerging manufacturing processes.
About Molecular Glasses, Inc.
Molecular Glasses, Inc. is a supplier of patented materials to Original Equipment Manufacturers (OEMs) of Organic Light Emitting Diodes (OLED) for use in displays (cell phones and tablets for example), and specialty lighting. Molecular Glasses is positioned to transform OLED applications across large and small scale displays, automotive electronics, lighting, and more, disrupting a market segment estimated to reach $4 billion by 2020. www.molecularglasses.com
Molecular Glasses™, OLEDIQ™, NONcrystallizable™, Molaicular™, Molaicular Inside™, ISOmeric™, HIentropy™, SurfaceJET™ are trademarks of Molecular Glasses, Inc.
Contact:
Mike Molaire
585-210-2861
mikemolaire@molecularglasses.com
This patent facilitates the synthesis of ambipolar host materials for more efficient and longer life devices. “We expect this technology to significantly impact the industry by enabling lower manufacturing cost for large displays: televisions, advertising, and computer screens,” notes Mike Molaire, CEO and Founder of Molecular Glasses. “Our materials will help increase cell phone, tablet, and computer battery life while enhancing display resolution.”
Molecular Glasses has invented a new class of HIentropy™ NONcrystallizable™ OLED materials that merge the best attributes of the existing technologies into one set of materials that can be used in existing and emerging manufacturing processes.
About Molecular Glasses, Inc.
Molecular Glasses, Inc. is a supplier of patented materials to Original Equipment Manufacturers (OEMs) of Organic Light Emitting Diodes (OLED) for use in displays (cell phones and tablets for example), and specialty lighting. Molecular Glasses is positioned to transform OLED applications across large and small scale displays, automotive electronics, lighting, and more, disrupting a market segment estimated to reach $4 billion by 2020. www.molecularglasses.com
Molecular Glasses™, OLEDIQ™, NONcrystallizable™, Molaicular™, Molaicular Inside™, ISOmeric™, HIentropy™, SurfaceJET™ are trademarks of Molecular Glasses, Inc.
Contact:
Mike Molaire
585-210-2861
mikemolaire@molecularglasses.com
Contact
Molecular Glasses, Inc.
Mike Molaire
585-210-2861
molecularglasses.com
1667 Lake Ave., Suite 508, Rochester, NY 14615-3407
Contact
Mike Molaire
585-210-2861
molecularglasses.com
1667 Lake Ave., Suite 508, Rochester, NY 14615-3407
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Introducing OLEDIQ™
Molecular Glasses is positioned to transform OLED applications across large and small scale displays, automotive electronics, lighting, and more, disrupting a market segment estimated to reach $4 billion by 2020.
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