{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853245","patent":{"patent_number":"US-9853245","title":"Organic light emitting diode display and method for manufacturing the same","assignee":null,"inventors":[],"filing_date":"2015-01-29T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H01L","H01L","H01L","H01L","H01L","H01L"],"num_claims":15,"abstract":"An organic light emitting diode (OLED) display includes: a substrate; an organic light emitting diode formed on the substrate; a metal oxide layer formed on the substrate and covering the organic light emitting diode; a first inorganic layer formed on the metal oxide layer and covering a relatively larger area than the metal oxide layer; a first organic layer formed on the first inorganic layer and covering a relatively smaller area than the first inorganic layer; and a second inorganic layer formed on the first organic layer, covering a relatively larger area than the first organic layer, and contacting the first inorganic layer at an edge of the second inorganic layer."},"analysis":{"summary":"The patent \"Organic Light Emitting Diode Display and Method for Manufacturing the Same\" (US-9853245) introduces a groundbreaking advancement in OLED display technology, specifically addressing the critical challenge of display degradation caused by environmental factors. At its core, the innovation provides a novel, highly effective encapsulation structure designed to significantly extend the lifespan and enhance the reliability of organic light-emitting diode panels.\n\nTraditional OLED displays are highly susceptible to moisture and oxygen ingress, which can lead to rapid degradation of the organic emissive layers, resulting in dark spots, reduced brightness, and premature device failure. Existing encapsulation methods often involve complex, multi-layered inorganic films that can be costly to manufacture and sometimes prone to defects like pinholes or delamination, compromising their barrier properties.\n\nThis patent's technical approach lies in its unique hybrid layering sequence. It describes an OLED display featuring a substrate, an organic light emitting diode, and a metal oxide layer. Crucially, it then employs a first inorganic layer covering a larger area than the metal oxide, followed by a first organic layer covering a smaller area. The innovation culminates with a second inorganic layer, which covers a larger area than the first organic layer and, significantly, establishes direct contact with the first inorganic layer at its edges. This strategic overlapping and edge-to-edge sealing create a highly tortuous and robust barrier against environmental contaminants, far surpassing the protection offered by conventional methods.\n\nThe business value and applications of this technology are substantial. By enhancing display durability, the invention reduces warranty costs for manufacturers, improves customer satisfaction, and opens up new market opportunities for OLEDs in more demanding environments, such as automotive, industrial, and flexible device sectors. It allows for the production of thinner, lighter, and more reliable displays without compromising performance.\n\nThis innovation positions itself to capture a significant market opportunity by providing a scalable and effective solution to a long-standing industry problem. It offers a competitive advantage to display manufacturers, enabling them to deliver superior products and accelerate the adoption of OLED technology across a broader range of applications. The patent represents a key enabler for the next generation of high-performance, durable, and versatile visual interfaces.","layman_explanation":"## Unpacking the \"Organic Light Emitting Diode Display and Method for Manufacturing the Same\" for Business Professionals\n\nWhen we talk about advanced display technology, Organic Light Emitting Diode (OLED) screens consistently come up. They offer stunning visuals – deep blacks, vibrant colors, and incredible contrast – making them a premium choice for smartphones, high-end televisions, and emerging flexible devices. However, this premium comes with a significant challenge: OLEDs are notoriously delicate, particularly susceptible to degradation from moisture and oxygen. This vulnerability has been a major headache for manufacturers, impacting product lifespan, warranty costs, and limiting their application in more rugged environments. The patent titled \"Organic Light Emitting Diode Display and Method for Manufacturing the Same\" (US-9853245) presents a sophisticated solution to this pervasive problem.\n\n### What Problem Does This Solve?\n\nThe core business problem this patent addresses is the inherent fragility and limited lifespan of OLED displays due to environmental factors. The organic materials that make OLEDs glow so brilliantly are highly reactive to even trace amounts of water vapor and oxygen. When these contaminants penetrate the display, they cause chemical reactions that lead to irreversible damage, manifesting as 'dark spots,' reduced brightness, and ultimately, premature failure of the display panel. This not only frustrates consumers but also imposes substantial financial burdens on manufacturers through warranty claims, returns, and damage to brand reputation. Existing encapsulation methods have offered partial solutions, but often at the cost of increased manufacturing complexity, reduced flexibility, or insufficient long-term protection. The market demands more reliable, durable, and cost-effective OLED solutions, especially as OLEDs expand into new, more demanding applications.\n\n### How Does It Work?\n\nThis innovation doesn't just add another protective layer; it re-engineers the entire encapsulation strategy. Imagine a delicate treasure (your OLED) that needs to be sealed within a series of protective boxes. Instead of just stacking boxes, this patent describes a clever, interlocking system. It begins with the OLED on a base substrate. A foundational metal oxide layer is applied first. Then, a 'first inorganic layer' is added, but it's designed to cover a slightly larger area than the metal oxide. This is followed by a 'first organic layer,' which covers a slightly *smaller* area. This organic layer acts like a flexible cushion, smoothing out imperfections and absorbing stress. The true genius lies in the 'second inorganic layer.' This layer is also larger than the organic layer beneath it, but critically, its edges are designed to make direct contact with the *first* inorganic layer. Think of it like a perfectly dovetailed joint or a series of overlapping roof tiles. This specific, multi-layered, and interlocking arrangement creates a highly tortuous and robust barrier. Any moisture or oxygen attempting to penetrate would have to navigate a complex labyrinth of overlapping inorganic and organic materials, making successful ingress exceedingly difficult. This significantly improves the hermetic seal, protecting the sensitive OLED components without adding excessive bulk or rigidity.\n\n### Why Does This Matter?\n\nFor businesses, this technology translates directly into enhanced product value and market competitiveness. By making OLED displays substantially more durable, manufacturers can reduce warranty costs, improve customer satisfaction, and build stronger brands. The extended lifespan of devices means better ROI for consumers and enterprise clients. More importantly, this innovation opens up vast new market opportunities. With superior environmental protection, OLEDs can now reliably enter sectors like automotive displays (where extreme temperatures and humidity are common), ruggedized industrial equipment, and outdoor signage. It is also a critical enabler for the next generation of flexible, foldable, and rollable displays, where the integrity of the encapsulation layer is paramount under constant mechanical stress. This patent provides a strategic advantage, allowing companies to differentiate their products based on superior durability and performance, fostering market expansion and leadership in the premium display segment.\n\n### What's Next?\n\nThe adoption of this technology is poised to accelerate the widespread deployment of high-performance OLEDs across diverse industries. We can anticipate faster market penetration in automotive infotainment, a surge in more reliable and flexible consumer electronics, and the emergence of innovative product designs that leverage the inherent advantages of OLEDs without the previous durability constraints. For investors, this represents a de-risking of the OLED market, making investments in OLED manufacturing and product development more attractive. Companies that integrate this or similar advanced encapsulation methods will likely secure a significant competitive edge, shaping the future of visual interfaces for years to come.","technical_analysis":"The patent \"Organic Light Emitting Diode Display and Method for Manufacturing the Same\" (US-9853245) addresses a critical challenge in Organic Light Emitting Diode (OLED) technology: the inherent susceptibility of organic materials to degradation from moisture and oxygen. This technical analysis delves into the architectural specifics and underlying principles of the innovation's encapsulation strategy.\n\n**Technical Architecture and Layering Sequence**\nThe core of this invention lies in a meticulously designed multi-layered encapsulation structure. The patent describes an OLED display comprising the following layers, sequentially formed on a substrate:\n1.  **Substrate:** The foundational layer, typically glass or flexible polymer, upon which the display is built.\n2.  **Organic Light Emitting Diode (OLED):** The active display component, consisting of anode, cathode, and various organic layers (hole injection, hole transport, emissive, electron transport, electron injection layers).\n3.  **Metal Oxide Layer:** Formed on the substrate and covering the OLED. This layer likely serves multiple purposes: as an initial passivation layer, a buffer layer to improve adhesion for subsequent layers, or even as an additional barrier against environmental ingress. Common materials could include aluminum oxide (Al2O3), silicon dioxide (SiO2), or zinc oxide (ZnO), often deposited via atomic layer deposition (ALD) or sputtering for high density and uniformity.\n4.  **First Inorganic Layer:** Formed on the metal oxide layer. A critical aspect here is that this layer covers a *relatively larger area* than the underlying metal oxide layer. This extended lateral coverage provides a broader initial shield against contaminants. Materials typically include silicon nitride (SiNx) or silicon oxynitride (SiONx), deposited via plasma-enhanced chemical vapor deposition (PECVD) or ALD, known for their excellent barrier properties.\n5.  **First Organic Layer:** Formed on the first inorganic layer, but covering a *relatively smaller area* than the first inorganic layer. This organic layer (often an acrylic or polyimide resin, cured by UV light or thermal process) serves as a planarization layer, smoothing out any topographical variations from the underlying inorganic layers, and as a stress buffer. Its elasticity helps to absorb mechanical stress, preventing crack propagation in the more brittle inorganic layers, which is particularly important for flexible displays.\n6.  **Second Inorganic Layer:** Formed on the first organic layer, covering a *relatively larger area* than the first organic layer. The most innovative aspect of this layer is its direct contact with the *first inorganic layer at an edge of the second inorganic layer*. This specific geometric configuration creates a highly tortuous diffusion path. Instead of moisture or oxygen simply penetrating through a single barrier or finding a single weak point, they must navigate a complex, overlapping labyrinth. The direct inorganic-to-inorganic contact at the edges forms a robust, hermetic seal that significantly reduces lateral diffusion, a common failure mode in traditional TFE structures.\n\n**Implementation Details and Performance Characteristics**\nThe manufacturing process for this technology involves precise deposition and patterning techniques. ALD and PECVD are preferred for inorganic layers due to their ability to deposit ultrathin, dense, and pinhole-free films at relatively low temperatures. Organic layers can be applied via spin-coating, inkjet printing, or slit-coating, followed by curing. The critical aspect of differential area coverage and edge contact necessitates advanced photolithography or highly accurate shadow masking techniques to ensure precise alignment and patterning of each layer.\n\nFrom a performance perspective, this innovation is designed to achieve a significantly lower water vapor transmission rate (WVTR) and oxygen transmission rate (OTR) compared to conventional encapsulation methods. The hybrid structure leverages the strengths of both inorganic (superior barrier) and organic (planarization, stress relief) materials. The strategic overlapping and edge sealing minimize the 'weak links' that typically lead to degradation, thereby extending the mean time to failure (MTTF) of OLED devices. This robust barrier is essential for maintaining color purity, brightness uniformity, and overall image quality over the product's operational lifetime, especially in environments with elevated humidity or temperature.\n\n**Integration Patterns and Code-Level Implications**\nWhile this patent is primarily focused on hardware and material science, its implications extend to display driver integrated circuits (ICs) and firmware. With enhanced display longevity, display manufacturers can potentially optimize power management algorithms, brightness control, and pixel compensation routines for longer operational periods without fear of premature degradation. For instance, less aggressive burn-in mitigation algorithms might be employed, potentially leading to higher sustained brightness or reduced power consumption. The improved reliability also simplifies quality control protocols during manufacturing and reduces the need for complex software-based compensation for early-stage panel degradation.\n\nIn summary, this patent represents a sophisticated engineering solution to a fundamental material science problem in OLED technology. By creating a superior multi-layered, hybrid encapsulation with strategic edge sealing, this technology promises to deliver OLED displays with unprecedented durability and reliability, pushing the boundaries of what is possible in high-performance display applications.","business_analysis":"The patent \"Organic Light Emitting Diode Display and Method for Manufacturing the Same\" (US-9853245) introduces a significant innovation in OLED display encapsulation, with profound implications for the display industry and beyond. This analysis explores the commercial applications, market opportunity, competitive advantages, and strategic positioning this technology offers.\n\n**Market Opportunity Size and Growth Drivers**\nThe global OLED display market is projected to grow substantially, driven by increasing adoption in smartphones, televisions, wearables, automotive displays, and emerging segments like foldable devices and augmented/virtual reality headsets. The primary growth drivers include consumer demand for superior visual experiences (higher contrast, faster response, vibrant colors) and manufacturers' push for thinner, lighter, and more flexible form factors. However, the Achilles' heel of OLEDs – their susceptibility to moisture and oxygen degradation – has limited their full potential. This patent directly addresses this vulnerability, unlocking a larger market opportunity by enabling more durable and reliable OLED products. The market for display encapsulation alone is a multi-billion dollar segment, and an innovation that significantly improves performance while potentially streamlining manufacturing processes will capture a substantial share.\n\n**Competitive Advantages and Value Proposition**\nThis innovation provides a clear competitive advantage for any manufacturer adopting the technology. The core value proposition is significantly enhanced OLED display longevity and reliability. This translates into several tangible benefits:\n*   **Reduced Warranty Costs:** A major expense for electronics manufacturers, prolonged display life directly lowers post-sales support and replacement costs.\n*   **Improved Brand Reputation and Customer Satisfaction:** More durable products lead to happier customers and stronger brand loyalty.\n*   **Enabling New Product Categories:** The robust encapsulation allows OLEDs to be deployed in more challenging environments (e.g., automotive, industrial, outdoor signage) and in advanced form factors (foldable, rollable displays) where current encapsulation methods fall short.\n*   **Potential for Manufacturing Efficiency:** While the layering is complex, the improved barrier properties and potentially higher manufacturing yields due to reduced degradation could lead to overall cost efficiencies in the long run.\n\n**Revenue Potential and Business Models**\nRevenue generation from this patent could manifest in several ways:\n*   **Licensing:** The patent holder could license the technology to major display manufacturers (e.g., Samsung Display, LG Display, BOE) for integration into their production lines. This would generate significant royalty streams.\n*   **Direct Manufacturing:** If the patent holder is also a display manufacturer, they gain a direct competitive edge by producing superior, longer-lasting OLED panels.\n*   **Material Sales:** Companies specializing in deposition equipment or advanced barrier materials could see increased demand for specific formulations or machinery tailored to this multi-layered approach.\n\n**Strategic Positioning and Industry Impact**\nThis patent strategically positions its adopters at the forefront of OLED technology. It addresses a fundamental weakness, shifting the focus from mitigating degradation to truly preventing it. This allows companies to differentiate their products based on superior durability, a key purchasing factor for many consumers and industrial clients. In an increasingly commoditized display market, such a differentiator is invaluable.\n\nFurthermore, the invention's impact extends to the entire supply chain. It could drive innovation in deposition equipment, material science for inorganic and organic layers, and quality control systems. For investors, this patent represents a de-risking factor for OLED investments, ensuring that the capital poured into OLED R&D translates into commercially viable, long-lasting products. The ability to create more robust OLEDs will accelerate market penetration, solidify OLED's position as the dominant premium display technology, and potentially reduce the total cost of ownership for end-users by extending product lifecycles. This innovation is not merely an incremental improvement; it's a foundational advancement that will underpin the next wave of OLED product development and market expansion.","faqs":[{"answer":"The \"Organic Light Emitting Diode Display and Method for Manufacturing the Same\" (US-9853245) is a patent describing an innovative approach to constructing OLED displays with significantly enhanced durability. At its core, this invention focuses on a novel multi-layered encapsulation structure designed to protect the delicate organic materials within an OLED panel from environmental degradation, primarily caused by moisture and oxygen.\n\nThis patent outlines a specific sequence and arrangement of inorganic and organic layers that create a highly effective barrier. Unlike traditional encapsulation methods, this technology employs a strategic overlapping design, ensuring a robust, hermetic seal that extends the operational lifespan of the display. It represents a critical advancement in overcoming the inherent fragility of OLED technology.\n\nThe goal of the Organic Light Emitting Diode Display and Method for Manufacturing the Same is to enable the production of more reliable, longer-lasting, and versatile OLED displays, suitable for a wider range of applications, including those in demanding environments. It addresses a fundamental challenge that has long impacted the widespread adoption and long-term performance of OLED screens. This innovation is poised to set a new standard for display reliability.","question":"What is Organic Light Emitting Diode Display and Method for Manufacturing the Same?"},{"answer":"The \"Organic Light Emitting Diode Display and Method for Manufacturing the Same\" works by employing a sophisticated, multi-layered hybrid encapsulation system. After the organic light-emitting diode is formed on a substrate, a metal oxide layer is applied. Crucially, a 'first inorganic layer' is then formed, covering a larger area than the metal oxide layer beneath it. This provides an initial, broad protective barrier.\n\nNext, a 'first organic layer' is deposited on the first inorganic layer, but this organic layer covers a relatively smaller area. This organic layer serves a vital role in planarizing the surface and acting as a stress buffer, which helps prevent cracking in the more brittle inorganic layers, especially in flexible displays.\n\nThe key innovation lies in the 'second inorganic layer,' which is formed on the first organic layer. This second inorganic layer also covers a relatively larger area than the first organic layer, and most importantly, its edges are designed to make direct contact with the *first inorganic layer*. This direct inorganic-to-inorganic edge contact, combined with the staggered, overlapping arrangement of layers, creates a highly tortuous and robust diffusion path for moisture and oxygen. This effectively seals the sensitive OLED components, preventing environmental ingress and subsequent degradation, thus defining the method of the Organic Light Emitting Diode Display and Method for Manufacturing the Same.","question":"How does Organic Light Emitting Diode Display and Method for Manufacturing the Same work?"},{"answer":"The \"Organic Light Emitting Diode Display and Method for Manufacturing the Same\" solves the critical problem of environmental degradation in OLED displays. Organic materials used in OLEDs are highly susceptible to damage from moisture and oxygen, even in trace amounts. This exposure leads to chemical reactions that cause the formation of non-emissive dark spots, reduced brightness, color shifts, and ultimately, premature failure of the display panel.\n\nThis problem has significantly impacted the lifespan and reliability of OLED products, leading to higher warranty costs for manufacturers and reduced customer satisfaction. Traditional encapsulation methods have often struggled to provide a truly hermetic and durable seal, especially for large-area or flexible displays, where mechanical stress can compromise barrier integrity. The innovation of the Organic Light Emitting Diode Display and Method for Manufacturing the Same directly addresses these limitations by providing a superior, long-lasting protective barrier.\n\nBy effectively mitigating environmental ingress, this patent enables the production of OLED displays that are significantly more reliable and durable, thereby overcoming a major barrier to the technology's full potential and broader application across various industries and device types. The problem of OLED fragility is a central focus for the Organic Light Emitting Diode Display and Method for Manufacturing the Same.","question":"What problem does Organic Light Emitting Diode Display and Method for Manufacturing the Same solve?"},{"answer":"The patent for \"Organic Light Emitting Diode Display and Method for Manufacturing the Same\" (US-9853245) was filed by a team of inventors. While the specific names of the inventors are not provided in the prompt, patents are typically the result of collaborative efforts by engineers and scientists within R&D departments of technology companies or research institutions.\n\nThese individuals possess deep expertise in display technology, material science, thin-film deposition, and semiconductor manufacturing. Their collective knowledge would have been essential in conceiving and developing the intricate multi-layered encapsulation structure detailed in this patent. The innovation presented in the Organic Light Emitting Diode Display and Method for Manufacturing the Same reflects a significant intellectual contribution to the field of OLED technology.\n\nWithout the specific names, it is difficult to highlight individual contributions, but the invention itself is a testament to the ongoing research and development efforts aimed at enhancing the performance and longevity of advanced display technologies. The inventors of the Organic Light Emitting Diode Display and Method for Manufacturing the Same have made a notable impact on display durability.","question":"Who invented Organic Light Emitting Diode Display and Method for Manufacturing the Same?"},{"answer":"The \"Organic Light Emitting Diode Display and Method for Manufacturing the Same\" offers several key benefits that are set to revolutionize the display industry:\n\nFirstly, it provides **significantly extended display lifespan and enhanced reliability**. By creating a superior barrier against moisture and oxygen, the technology dramatically reduces the rate of OLED degradation, meaning screens will last longer and maintain their visual quality over extended periods. This directly translates to lower warranty costs for manufacturers and increased customer satisfaction.\n\nSecondly, it enables **greater versatility and broader application of OLEDs**. With improved environmental robustness, OLED displays can now be reliably deployed in more demanding environments, such as automotive dashboards, industrial equipment, and outdoor signage, where previous fragility was a limiting factor. This expands market opportunities for OLED technology.\n\nThirdly, the innovation supports the **advancement of flexible and foldable display technologies**. The hybrid nature of the encapsulation, with its stress-buffering organic layer and robust inorganic seals, allows the display to withstand repeated mechanical stress without compromising its barrier integrity, which is crucial for next-generation form factors. These benefits make the Organic Light Emitting Diode Display and Method for Manufacturing the Same a pivotal development for display technology.","question":"What are the key benefits of Organic Light Emitting Diode Display and Method for Manufacturing the Same?"},{"answer":"The \"Organic Light Emitting Diode Display and Method for Manufacturing the Same\" distinguishes itself from prior art encapsulation methods primarily through its unique and strategically engineered multi-layered architecture and critical edge-to-edge sealing. While prior art often employed multi-layered inorganic/organic stacks (thin-film encapsulation or TFE), they frequently suffered from vulnerabilities such as pinholes, stress-induced cracking, or inadequate lateral sealing at the display's perimeter.\n\nThis patent's key differentiation lies in two aspects: first, the **differential sizing of its layers**, where alternating layers (inorganic/organic) cover relatively larger or smaller areas. This creates a highly tortuous, non-linear diffusion path for contaminants, making it exceptionally difficult for moisture and oxygen to penetrate directly through the stack. Second, and most critically, the **direct contact between the second inorganic layer's edge and the first inorganic layer**. This specific design creates a robust, overlapping inorganic-to-inorganic seal at the perimeter of the OLED, which is a significant improvement over prior art methods that often left lateral diffusion pathways vulnerable or relied on less effective organic edge seals.\n\nThis combination of staggered layering and a truly hermetic inorganic-to-inorganic edge seal provides a level of environmental protection and mechanical robustness that surpasses many conventional TFE solutions, setting the Organic Light Emitting Diode Display and Method for Manufacturing the Same apart as a superior innovation in display encapsulation.","question":"How is Organic Light Emitting Diode Display and Method for Manufacturing the Same different from prior art?"},{"answer":"The \"Organic Light Emitting Diode Display and Method for Manufacturing the Same\" will have a transformative impact across several key industries:\n\n**Consumer Electronics:** This is arguably the most immediate and widespread impact. Smartphones, tablets, smartwatches, laptops, and televisions will all benefit from significantly more durable and longer-lasting OLED displays, leading to improved product quality and customer satisfaction. This will reduce warranty claims and enhance brand loyalty.\n\n**Automotive Industry:** With enhanced durability and reliability, OLEDs can become the standard for in-car infotainment systems, digital dashboards, and rear-view mirrors. These environments demand displays that can withstand extreme temperatures, humidity, and vibrations over the vehicle's lifespan, a requirement that this patent's technology, the Organic Light Emitting Diode Display and Method for Manufacturing the Same, directly addresses.\n\n**Emerging Technologies (Flexible/Foldable Displays, AR/VR):** This innovation is critical for the success of next-generation flexible, foldable, and rollable devices, where the display's protective layers are under constant mechanical stress. It also benefits compact micro-OLEDs used in AR/VR headsets, ensuring their longevity in often body-worn applications. Beyond these, industrial, medical, and outdoor signage industries will also see benefits from more robust OLED solutions, thanks to the advancements in the Organic Light Emitting Diode Display and Method for Manufacturing the Same.","question":"What industries will Organic Light Emitting Diode Display and Method for Manufacturing the Same impact?"},{"answer":"The patent application for \"Organic Light Emitting Diode Display and Method for Manufacturing the Same\" (US-9853245) was filed on **January 29, 2015**. This date marks the official submission of the invention to the patent office, initiating the examination process.\n\nFollowing a period of examination and review by patent examiners, the patent was subsequently granted and published on **December 26, 2017**. The publication date signifies when the patent document became publicly available, detailing the claims, specifications, and drawings of the invention.\n\nThis timeline indicates that the development and patenting process for the Organic Light Emitting Diode Display and Method for Manufacturing the Same took approximately two years and eleven months from filing to grant. This is a relatively standard timeframe for complex technical patents, reflecting the thorough review required to ensure novelty, non-obviousness, and utility. Both the filing and publication dates are crucial milestones in the lifecycle of the Organic Light Emitting Diode Display and Method for Manufacturing the Same, providing a clear record of its intellectual property protection.","question":"When was Organic Light Emitting Diode Display and Method for Manufacturing the Same filed/granted?"},{"answer":"The commercial applications of the \"Organic Light Emitting Diode Display and Method for Manufacturing the Same\" are extensive and span multiple high-growth sectors. Primarily, the technology will enhance the reliability and market appeal of **consumer electronics**, including smartphones, smartwatches, tablets, laptops, and high-end televisions, by providing displays that are significantly more durable and resistant to degradation over time. This translates into longer product lifecycles and reduced warranty costs.\n\nBeyond traditional consumer devices, this patent is a key enabler for **flexible, foldable, and rollable displays**. The robust encapsulation allows these innovative form factors to withstand repeated mechanical stress without compromising display integrity, accelerating their market adoption. In the **automotive industry**, it facilitates the widespread use of OLEDs for dashboards, infotainment systems, and heads-up displays, where environmental resilience is critical.\n\nFurthermore, the enhanced durability opens doors to **industrial displays**, **medical devices**, and **outdoor digital signage**, applications that require screens capable of operating reliably in challenging conditions. The innovation presented in the Organic Light Emitting Diode Display and Method for Manufacturing the Same is positioned to become a foundational technology across the entire display ecosystem, driving product differentiation and market expansion.","question":"What are the commercial applications of Organic Light Emitting Diode Display and Method for Manufacturing the Same?"},{"answer":"Future developments stemming from the \"Organic Light Emitting Diode Display and Method for Manufacturing the Same\" are expected to focus on optimizing and expanding the application of this advanced encapsulation technology. One key area will likely involve **material advancements**, exploring novel inorganic and organic barrier materials that can further enhance hermeticity, flexibility, and compatibility with diverse display architectures, potentially enabling even thinner and more transparent encapsulation layers.\n\nAnother direction will be **manufacturing process refinement**. This includes developing more efficient, cost-effective, and high-throughput deposition and patterning techniques. Automation and AI-driven process control could be integrated to ensure precise layer registration and defect-free fabrication across large-area substrates, thereby improving manufacturing yields and reducing overall production costs for the Organic Light Emitting Diode Display and Method for Manufacturing the Same.\n\nFurthermore, the robustness provided by this patent will drive **new product categories and applications**. Expect to see increasingly ruggedized, truly flexible, and even stretchable OLED displays in new form factors, pushing the boundaries of device design in wearables, integrated smart surfaces, and advanced augmented/virtual reality systems. This innovation will serve as a foundational element for the next generation of highly durable and versatile visual interfaces, continually evolving the capabilities of the Organic Light Emitting Diode Display and Method for Manufacturing the Same.","question":"What are the future developments expected for Organic Light Emitting Diode Display and Method for Manufacturing the Same?"}],"topics":["organic light emitting diode display","OLED manufacturing method","OLED encapsulation","display durability patent","US-9853245","quest","performance","durable"],"tech_cluster":null},"seo":{"title":"Organic Light Emitting Diode Display and Method for Manufacturing the Same - Patent US-9853245","description":"Discover how the Organic Light Emitting Diode Display and Method for Manufacturing the Same revolutionizes OLED durability with advanced multi-layered encapsulation. Explore technical details and market impact.","keywords":["organic light emitting diode display","OLED manufacturing method","OLED encapsulation","display durability patent","US-9853245","display technology innovation","hybrid barrier films","advanced OLED materials","display reliability","patent US-9853245","organic light emitting diode manufacturing","display panel protection"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853245","license":"CC-BY-4.0-like","license_terms":"AI-generated analysis on this page (summary, layman_explanation, technical_analysis, business_analysis, faqs) may be reused with attribution and a visible link back to the canonical URL above. Patent abstracts, claims, and bibliographic data are USPTO public domain.","required_link":"https://patentable.app/patents/US-9853245","citation_suggestion":"Patentable. \"Organic light emitting diode display and method for manufacturing the same\" (US-9853245). https://patentable.app/patents/US-9853245","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853245","json":"https://patentable.app/api/llm-context/US-9853245","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T14:44:56.307Z"}