BOE(SZ:000725) Ren Min Ri Bao·2025-11-30 22:01Core Insights - The article discusses the rapid advancement of flexible display technology, highlighting its transition from rigid to flexible forms, which is increasingly applied in various sectors such as consumer electronics, commercial spaces, and smart interactions [5][8]. Group 1: Flexible Display Technology Development - Flexible displays are characterized by their ability to bend and stretch, leading to innovative applications in products like foldable phones and curved screens [5][8]. - Recent breakthroughs include the development of high-performance stretchable polymer light-emitting diodes (PLEDs) by the Chinese Academy of Sciences, which significantly enhance optical performance and mechanical stability [5][11]. - LG Display has showcased a prototype of a stretchable display capable of approximately 53% deformation, indicating significant progress in the field [5][8]. Group 2: Manufacturing Process of Flexible Displays - The creation of flexible displays involves a complex multi-layer structure, requiring innovations in flexible substrate materials, core electronic components, structural design, and packaging technology [6][7]. - Flexible substrates must be thin, soft, and resistant to high temperatures and corrosive environments, with common materials including polyimide and polyester [6]. - Core electronic components like thin-film transistors (TFT) and organic light-emitting diodes (OLED) rely on high-performance materials to ensure rapid current flow and energy efficiency [7]. Group 3: Market Expansion and Applications - The global market for flexible displays is projected to grow significantly, with an estimated shipment of 631 million flexible AMOLED panels in 2024, accounting for 42% of the smartphone screen market [8]. - By 2031, the flexible display market is expected to exceed $173 billion, with a compound annual growth rate (CAGR) of 34.3% [8]. - Applications are expanding across various sectors, including smart terminals, wearables, automotive, healthcare, and public services, enhancing user experience and functionality [9][10]. Group 4: Future Innovations and Challenges - The concept of intrinsic flexibility is emerging, which refers to the inherent ability of materials to withstand deformation without relying on external structures [11][12]. - Research teams are exploring new material systems to improve the mechanical strength and durability of flexible displays, with ongoing challenges in achieving large-scale applications [11][12]. - The integration of sensors and AI algorithms in intrinsic flexible displays could lead to personalized and intelligent user experiences, transforming the interaction between devices and users [12].