STRETCHABLE DISPLAY APPARATUS

Organization Name

samsung display co., ltd.

Inventor(s)

Jinho Ju of Yongin-si (KR)

STRETCHABLE DISPLAY APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240324290 titled 'STRETCHABLE DISPLAY APPARATUS

The stretchable display apparatus described in the patent application consists of a substrate, a circuit layer with first and second subpixel circuits, and a light-emitting layer with first and second light-emitting diodes. The circuit layer includes multiple inorganic insulating layers and inorganic conductive patterns, with an opening between the first and second subpixel circuits.

• The apparatus features a stretchable design that allows for flexibility and durability.
• The use of inorganic insulating layers and conductive patterns enhances the overall performance and longevity of the display.
• The presence of multiple layers ensures proper insulation and protection for the circuitry.
• The opening in the layers allows for flexibility and stretchability without compromising functionality.
• The placement of the conductive patterns between the subpixel circuits ensures efficient operation and connectivity.

Potential Applications: - Flexible and stretchable electronic devices - Wearable technology - Medical devices with flexible displays - Automotive displays

Problems Solved: - Addressing the need for flexible and durable display technology - Ensuring proper insulation and protection for circuitry in stretchable devices - Enhancing the overall performance and longevity of electronic displays

Benefits: - Improved flexibility and durability - Enhanced performance and connectivity - Increased lifespan of electronic devices - Versatile applications in various industries

Commercial Applications: Title: Stretchable Display Technology for Next-Generation Devices This technology can be utilized in the development of flexible smartphones, smartwatches, medical monitoring devices, and automotive displays. The market implications include the potential for innovative product designs, improved user experience, and increased demand for advanced display technology.

Prior Art: Readers can explore prior research on stretchable display technology, flexible electronics, and advancements in circuit design for flexible devices to gain a deeper understanding of the field.

Frequently Updated Research: Stay informed about the latest developments in stretchable display technology, advancements in flexible electronics, and research on improving the performance of flexible displays for various applications.

Questions about Stretchable Display Technology: 1. How does the use of inorganic insulating layers enhance the performance of the display? - The inorganic insulating layers provide proper insulation and protection for the circuitry, ensuring efficient operation and longevity of the display. 2. What are the potential commercial applications of stretchable display technology? - Stretchable display technology can be used in flexible smartphones, wearable devices, medical monitors, and automotive displays, offering innovative product designs and improved user experience.

Original Abstract Submitted

a stretchable display apparatus includes a substrate, a circuit layer on the substrate and including first and second subpixel circuits, and a light-emitting layer on the circuit layer and including first and second light-emitting diodes, where the circuit layer includes a plurality of inorganic insulating layers interposed between the substrate and the light-emitting layer, and a first inorganic conductive pattern and a second inorganic conductive pattern interposed between a first inorganic insulating layer and a second inorganic insulating layer, where the plurality of inorganic insulating layers defines an opening passing through the first and second inorganic insulating layers and being in an area between the first subpixel circuit and the second subpixel circuit, and the first inorganic conductive pattern and the second inorganic conductive pattern are disposed between the first subpixel circuit and the second subpixel circuit and respectively disposed on opposite sides of the opening.