These OLED vertical stacks are low cost, durable and applications in flexible displays, light panels and spectroscopy sensors
Organic light-emitting diode (OLED) technology brings the promise of sharper displays at lower cost. This sharpness arises from the fact that conventional LEDs leak a little light when displaying black, degrading the contrast ratio of bright-to dark. OLEDs display pure black, with no leaks, leading to an infinite contrast ratio. In addition, OLEDs offer many advantages over LEDs including lower cost, lighter weight, and flexibility. Experts predict the overall OLED market will reach $72 billion by 2026 after experiencing a compound annual growth rate of 14%,
UVM has developed a novel tunable stack architecture for photonic crystal OLEDs. By varying the thickness and composition of each layer in the stack, the resulting OLED has a high degree of control over the output spectrum, facilitating emissions from specific narrowband peaks up to broadband white light. The proposed photonic crystal architecture represents an evolutionary step forward in the design and manufacturing of tunable OLED devices. Proof of concept (POC) devices built with this architecture have demonstrated that the benefits of the architecture will apply across all formulations and is compatible with any materials used to manufacture OLEDs, making it easy and economical to implement in existing manufacturing facilities. In addition, this low-cost approach can replace multiple devices with one tunable stack device, for display, lighting, and spectroscopic applications.
This technology is a low-cost, long-life OLED vertical stack architecture that is tunable with a high degree of control across the entire white light spectrum and is compatible with current manufacturing methods. It also offers multiple emission of the narrowband peaks applicable to different spectroscopy techniques, spanning infrared to ultraviolet wavelengths.
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