{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9853194","patent":{"patent_number":"US-9853194","title":"Light emitting apparatus and method for producing the same","assignee":null,"inventors":[],"filing_date":"2015-04-16T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H01L","H01L","H01L","H01L","H01L","H01L","H01L","H01L","H01L","H01L","H01L","H01L","H01L","H01L","H01L","H01L","H01L","H01L","H01L","H01L","H01L"],"num_claims":20,"abstract":"A light emitting apparatus includes at least one light emitting device; a light transparent member that receives incident light emitted from the light emitting device; and a covering member. The light transparent member is a light conversion member that has an externally exposed light emission surface and a side surface contiguous to the light emission surface. The covering member contains a light reflective material, and covers at least the side surface of said light transparent member. A content of said light reflective material is not less than 30 wt %."},"analysis":{"summary":"The patent titled \"Light Emitting Apparatus and Method for Producing the Same\" (US-9853194) introduces a groundbreaking solution to enhance the efficiency and brightness of light-emitting devices, particularly those involving light conversion. At its core, the innovation provides an apparatus that significantly reduces light loss, a common issue in many existing display and lighting technologies.\n\nThis technology addresses the problem of light escaping through the non-emitting surfaces of a light conversion member. In conventional systems, light generated by a primary source, or light that has undergone wavelength conversion within a transparent medium, often scatters or escapes laterally, leading to reduced overall output and wasted energy. This inefficiency necessitates higher power consumption to achieve desired luminance levels, impacting both performance and sustainability.\n\nThe key technical approach of this patent involves a light-emitting apparatus comprising a light-emitting device and a light transparent member. Crucially, this transparent member also functions as a light conversion member, featuring an exposed light emission surface and contiguous side surfaces. The innovation lies in the addition of a covering member. This covering member contains a high concentration of light reflective material, specified as not less than 30 wt%, and is strategically positioned to cover at least the side surfaces of the light transparent member. By doing so, any light attempting to escape laterally is reflected back into the transparent member, thereby being redirected towards the primary emission surface. This mechanism ensures maximum light extraction and utilization.\n\nThe business value and applications of this technology are substantial. It promises to deliver significantly brighter and more energy-efficient displays for a wide range of devices, from smartphones and televisions to automotive dashboards and large-scale digital signage. Beyond displays, it can revolutionize general illumination products, offering higher lumen output per watt and extending the lifespan of lighting components. This translates into reduced manufacturing costs, lower operational expenses for consumers and businesses, and a smaller environmental footprint due to decreased energy consumption.\n\nConsidering the pervasive need for superior visual experiences and increasing pressure for energy efficiency, the market opportunity for this patent is immense. Industries poised for impact include consumer electronics, automotive, architectural lighting, and specialized optical systems. This innovation positions itself as a foundational technology for next-generation optoelectronic products, offering a clear competitive advantage to manufacturers who adopt this advanced light management approach.","layman_explanation":"### What Problem Does This Solve?\n\nIn today's world, we rely heavily on light-emitting devices – from the screens on our phones and TVs to the LED lights illuminating our homes and offices. A common, yet often unseen, problem with these devices is inefficiency. When light is generated by an LED or a similar source, and then passed through a transparent component (often one that changes the light's color, like a phosphor layer), a significant portion of that light doesn't make it to where it needs to go. Instead, it leaks out through the sides of these components, dissipating uselessly. This light loss means two things: first, the device isn't as bright as it could be, and second, it consumes more energy to achieve a desired level of brightness, leading to higher electricity bills and a larger environmental footprint. Existing solutions often involve complex optical films or more powerful (and expensive) light sources, which don't fully address the fundamental issue of light escaping laterally.\n\n### How Does It Work?\n\nThe patent \"Light Emitting Apparatus and Method for Producing the Same\" offers an elegant and effective solution to this problem. Think of it like a perfectly designed light box. You have a light source (like a small LED bulb) inside a clear, block-like material. This clear block is special because it can also convert the light's color – for example, turning a blue light into a white light. This block has a main front surface where you want the light to come out, and then it has side surfaces. The innovation introduces a 'covering member' – essentially a special coating or layer – that is applied to these side surfaces. What's crucial about this covering is that it's packed with a highly reflective material, making up at least 30% of its content. So, any light that tries to escape through the sides of the clear block hits this super-reflective covering. Instead of disappearing, the light bounces back into the clear block, gets redirected, and eventually finds its way out through the intended front emission surface. It's like building a perfect mirror around the sides of your light box to ensure all the light goes in the right direction.\n\n### Why Does This Matter?\n\nThis invention matters significantly because it directly impacts the performance and cost-efficiency of a vast array of products. For consumers, it means devices with screens that are noticeably brighter, offer better contrast, and consume less battery power, extending usage time. Imagine a smartphone screen that's perfectly legible even under direct sunlight, or a television that delivers more vibrant colors with less energy. For businesses, this translates into substantial competitive advantages. Manufacturers can produce superior displays and lighting solutions that are more energy-efficient, potentially reducing material costs (by needing fewer or less powerful LEDs) and meeting increasingly stringent energy regulations. This technology can drive higher sales, improve brand reputation, and contribute to sustainability goals. The market opportunity is enormous, touching the multi-billion dollar display, automotive, and general lighting industries, offering a clear path to improved ROI through innovation.\n\n### What's Next?\n\nThe future applications of this technology are broad and exciting. Beyond traditional displays and lighting, this approach could enhance specialized optical systems, medical devices, and even automotive lighting for improved safety and aesthetics. We can expect to see this innovation integrated into next-generation products, setting new benchmarks for efficiency and visual quality. As companies adopt this patent, market adoption is likely to accelerate, leading to a new standard for light management. For investors, this represents a strategic area of interest, as it underpins fundamental improvements in core technologies, promising long-term growth and market disruption. This patent is not just an incremental step; it's a foundational piece for the future of light.","technical_analysis":"The patent \"Light Emitting Apparatus and Method for Producing the Same\" (US-9853194) details an innovative architectural and material-centric approach to significantly improve the light extraction efficiency of light-emitting apparatuses. This technical analysis will delve into its core components, operational principles, and potential implications for optical system design.\n\n**Technical Architecture and Core Components**\nThe described apparatus fundamentally consists of three primary components:\n\n1.  **Light Emitting Device:** This serves as the primary light source, typically a Light Emitting Diode (LED) or an array thereof, emitting incident light.\n2.  **Light Transparent Member:** This component is designed to receive the incident light. Crucially, it also functions as a *light conversion member*, meaning it contains materials (e.g., phosphors, quantum dots) that absorb incident light of one wavelength and re-emit light at a different, desired wavelength (e.g., converting blue LED light to white light). This member possesses an externally exposed light emission surface and multiple side surfaces contiguous to it.\n3.  **Covering Member:** This is the lynchpin of the innovation. It is composed of a material containing a high concentration of a *light reflective material*, specifically stated as not less than 30 wt%. Its strategic placement involves covering at least the side surfaces of the light transparent member.\n\n**Implementation Details and Operational Principles**\nThe primary technical challenge this patent addresses is the loss of light through the lateral (side) surfaces of the light transparent/conversion member. In conventional designs, a significant portion of incident light, or light converted within the member, can escape or be trapped due to total internal reflection (TIR) or scattering without contributing to the intended emission. This invention mitigates these losses through the highly reflective covering member.\n\nWhen light (either incident from the primary source or re-emitted after conversion) reaches the boundary between the light transparent member and the reflective covering, it encounters a high-reflectance interface. The reflective material (e.g., titanium dioxide, barium sulfate, alumina particles dispersed in a binder) ensures that a substantial percentage of this light is scattered or reflected back into the light transparent member. This redirection increases the optical path length within the conversion member and, more importantly, elevates the probability that these photons will eventually find an escape path through the intended light emission surface.\n\nThe specification of \"not less than 30 wt%\" for the reflective material content is a critical parameter. This weight percentage suggests a sufficiently high packing density or concentration of reflective particles to achieve effective light scattering and redirection, minimizing absorption within the covering itself. The choice of reflective material, its particle size distribution, and the refractive index contrast with the binder material will dictate the spectral and angular characteristics of the reflection. For instance, a highly diffuse reflector would aid in achieving uniform light emission, while a more specular reflector might be used for directional control.\n\n**Integration Patterns and Performance Characteristics**\nThis technology can be integrated into various optoelectronic systems. For liquid crystal display (LCD) backlights, the light transparent member could be a light guide plate or a diffuser sheet, with the reflective covering applied to its edges. This would lead to higher luminance uniformity and significantly increased overall backlight efficiency, allowing for brighter displays at lower power consumption or reduced LED count. In direct-lit or edge-lit LED modules, this system can enhance the effective lumen output per watt.\n\nPerformance characteristics would include: \n*   **Increased Light Extraction Efficiency:** Direct reduction in light loss from side surfaces. \n*   **Higher Luminance:** Greater effective light output for the same input power. \n*   **Improved Energy Efficiency:** Less power required to achieve a target brightness. \n*   **Enhanced Contrast:** Minimized stray light within the optical system can lead to better local dimming performance and overall contrast. \n*   **Potential for Thinner Designs:** Achieving desired brightness with less power might allow for more compact or thinner optical stacks.\n\n**Code-Level Implications (Analogous to Optical Modeling)**\nWhile not directly involving 'code' in the traditional software sense, the development and optimization of such a system would heavily rely on advanced optical simulation and modeling software (e.g., LightTools, Zemax OpticStudio). Engineers would model photon propagation using ray tracing algorithms, incorporating material properties like refractive index, absorption coefficients, and scattering parameters for both the transparent member and the reflective covering. The 30 wt% reflective material content would translate into specific scattering coefficients and reflectance values within these models, allowing for iterative design optimization to maximize light output and uniformity. These simulations would be crucial for determining optimal covering thickness, reflective particle type, and placement to achieve desired performance metrics.\n\nIn essence, this patent provides a robust and scalable framework for overcoming inherent light loss mechanisms in light-emitting apparatuses, paving the way for more efficient, brighter, and visually superior optical products across a multitude of industries.","business_analysis":"The patent \"Light Emitting Apparatus and Method for Producing the Same\" (US-9853194) represents a significant advancement in optical efficiency, poised to create substantial business opportunities and reshape competitive landscapes across several high-growth industries. This analysis explores its market potential, competitive advantages, revenue implications, and strategic positioning.\n\n**Market Opportunity Size and Growth Drivers**\nThe global market for displays (LCD, OLED, micro-LED) and general lighting is enormous and continuously expanding. Display market value alone is projected to reach hundreds of billions of dollars annually, driven by consumer demand for higher resolution, brighter, and more energy-efficient screens in smartphones, TVs, automotive infotainment, and augmented/virtual reality devices. Similarly, the LED lighting market continues its robust growth, fueled by energy conservation mandates and the adoption of smart lighting solutions. This patent directly addresses critical needs within these markets: enhanced brightness, improved contrast, and significantly reduced power consumption. By optimizing light extraction, this technology taps into a universal requirement for better performance at lower operational costs, suggesting a multi-billion dollar market opportunity for its integration.\n\n**Competitive Advantages**\nThis innovation offers several distinct competitive advantages:\n\n1.  **Superior Performance-to-Power Ratio:** Products incorporating this technology can achieve higher brightness or equivalent brightness with less power, offering a clear differentiator in performance-sensitive markets.\n2.  **Cost Reduction Potential:** By maximizing light output from existing light sources, manufacturers may be able to use fewer or less powerful LEDs, reducing component costs. Lower power consumption also translates to reduced heat generation, potentially simplifying thermal management systems and further cutting costs.\n3.  **Environmental Sustainability:** The energy efficiency gains align with global sustainability trends and consumer demand for 'green' products, providing a strong marketing advantage.\n4.  **Design Flexibility:** Achieving desired optical performance with greater efficiency can enable thinner, lighter, or more compact product designs, which is crucial for portable electronics and aesthetically driven applications.\n5.  **IP Protection:** Holding a patent like Light Emitting Apparatus and Method for Producing the Same provides a strong intellectual property barrier, allowing early adopters to secure a competitive edge and potentially license the technology for significant revenue streams.\n\n**Revenue Potential and Business Models**\nRevenue generation from this patent could manifest through several business models:\n\n*   **Direct Product Integration:** Companies manufacturing displays, lighting fixtures, or optical modules can integrate this technology into their own product lines, leading to premium pricing or increased market share due to superior performance.\n*   **Licensing:** The patent holder could license the technology to multiple manufacturers across different sectors (consumer electronics, automotive, industrial lighting), generating substantial royalty income.\n*   **Component Sales:** If the reflective covering or the light transparent member itself becomes a standardized component, the patent holder or its licensees could become a key supplier for these optimized parts.\n*   **Joint Ventures/Partnerships:** Collaborating with established players in display or lighting industries to co-develop and market products incorporating this innovation.\n\n**Strategic Positioning**\nStrategically, this patent positions its adopters as leaders in optical efficiency and advanced display technology. For display manufacturers, it offers a pathway to differentiate products in a crowded market based on superior visual quality and energy credentials. For lighting companies, it provides a means to deliver higher lumen efficacy, meeting stringent energy standards and opening new markets. This innovation can also serve as a foundational technology, enabling the development of entirely new product categories or enhancing existing ones in ways previously thought uneconomical or technically challenging.\n\n**ROI Projections**\nThe return on investment for companies adopting or licensing this technology appears highly favorable. Initial investment in R&D or licensing fees would be offset by: \n*   Increased sales volume due to superior product offerings. \n*   Higher profit margins from reduced component and energy costs. \n*   Potential for new revenue streams through licensing. \n*   Enhanced brand reputation as an innovator in sustainable technology. \n\nGiven the massive and growing markets it addresses, even a modest market penetration could yield substantial financial returns. The Light Emitting Apparatus and Method for Producing the Same is not just a technical improvement; it's a strategic asset that can drive significant commercial success and long-term market leadership.","faqs":[{"answer":"The \"Light Emitting Apparatus and Method for Producing the Same\" (US-9853194) is a patent describing an advanced light-emitting device and the process to create it. At its core, this innovation focuses on significantly improving the efficiency and brightness of systems that produce light, such as those found in displays and lighting fixtures. It addresses the common problem of light being wasted or lost within the optical components.\n\nSpecifically, the patent details an apparatus that includes a light-emitting device (like an LED), a transparent component that also converts light (e.g., changing blue light to white), and a special covering. This covering is key because it contains a high concentration of light-reflective material, at least 30% by weight. Its purpose is to cover the side surfaces of the transparent light-converting component.\n\nBy strategically applying this reflective covering, the invention ensures that light attempting to escape through the sides is instead bounced back into the main transparent component. This redirection maximizes the amount of light that ultimately exits through the intended emission surface, leading to a much brighter and more energy-efficient light output. This technology represents a clever way to make light work harder and smarter.","question":"What is Light Emitting Apparatus and Method for Producing the Same?"},{"answer":"The mechanism behind the Light Emitting Apparatus and Method for Producing the Same is quite ingenious. When a light-emitting device, such as an LED, generates light, that light often enters a transparent member. This transparent member typically has two functions: to guide the light and often to convert its wavelength (e.g., using phosphors to convert blue light into white light).\n\nHowever, a common issue is that a significant portion of this light, both original and converted, can leak out through the side surfaces of this transparent member, rather than exiting through the primary emission surface (e.g., the screen of a display). This patent solves this by introducing a 'covering member' which is essentially a highly reflective layer. This layer is applied to at least the side surfaces of the light transparent member.\n\nCrucially, this covering member is made with a high concentration of light reflective material – specifically, not less than 30 wt%. When light inside the transparent member hits this reflective covering on the sides, it doesn't escape. Instead, it's efficiently reflected back into the transparent member. This redirected light then has another chance to travel towards and exit through the desired light emission surface, thus maximizing the overall light output and efficiency of the apparatus. It's like building a perfect internal mirror to ensure every photon is utilized.","question":"How does Light Emitting Apparatus and Method for Producing the Same work?"},{"answer":"The Light Emitting Apparatus and Method for Producing the Same patent primarily solves the problem of **light loss and inefficiency** in light-emitting devices. In many existing optical systems, particularly those used in displays (like TVs, smartphones, laptops) and general lighting, a considerable amount of light produced by the primary source (e.g., an LED) or generated by a light conversion layer (e.g., phosphors) is wasted.\n\nThis waste occurs because light can escape through the side surfaces of the transparent optical components instead of being directed outwards through the intended emission surface. This phenomenon leads to several undesirable outcomes:\n\n1.  **Reduced Brightness:** The device cannot achieve its full potential brightness, making displays harder to see in bright environments.\n2.  **Lower Energy Efficiency:** To compensate for lost light and achieve a target brightness, the device must consume more power, leading to higher energy bills and shorter battery life for portable devices.\n3.  **Compromised Visual Quality:** Stray light can negatively impact contrast ratios and color uniformity.\n\nThis innovation directly addresses these issues by effectively recapturing and redirecting this 'lost' light, ensuring that a much higher percentage of the generated light is utilized, thereby making devices brighter, more efficient, and improving overall visual quality. It's a fundamental improvement in light management.","question":"What problem does Light Emitting Apparatus and Method for Producing the Same solve?"},{"answer":"The patent data provided does not list the specific inventors or the assignee (the company or entity to whom the patent rights are assigned). However, the existence of the patent, \"Light Emitting Apparatus and Method for Producing the Same\" (US-9853194), indicates that it was developed by individuals or a team within an organization dedicated to advancing optical and display technologies.\n\nTypically, patents are filed by inventors who are employees of a corporation, university, or research institution, which then becomes the assignee of the patent. These innovations often stem from extensive research and development efforts aimed at solving specific technical challenges in their respective fields.\n\nWhile the names are not disclosed here, the invention itself points to expertise in areas such as optical engineering, materials science, display technology, and manufacturing processes for light-emitting components. The focus on a highly reflective covering and light conversion suggests a deep understanding of photonics and light management principles.","question":"Who invented Light Emitting Apparatus and Method for Producing the Same?"},{"answer":"The Light Emitting Apparatus and Method for Producing the Same (US-9853194) offers several significant benefits that can revolutionize various light-emitting applications:\n\n1.  **Enhanced Brightness:** By effectively recapturing and redirecting lost light, the apparatus can achieve significantly higher luminance for the same power input, leading to brighter displays and more powerful lighting solutions.\n2.  **Increased Energy Efficiency:** Less light is wasted, meaning devices can achieve desired brightness levels with lower power consumption. This translates to longer battery life for portable electronics and reduced electricity costs for larger displays and general illumination. It's a major step towards sustainable technology.\n3.  **Improved Visual Quality:** Minimizing stray light within the optical system leads to better contrast ratios, deeper blacks, and more accurate color reproduction, enhancing the overall viewing experience.\n4.  **Cost Reduction Potential:** Manufacturers may be able to use fewer or less powerful primary light-emitting devices (e.g., LEDs) to achieve desired brightness, potentially lowering material costs. Reduced heat generation due to higher efficiency can also simplify thermal management.\n5.  **Greater Design Flexibility:** Achieving high optical performance with greater efficiency can enable the design of thinner, lighter, and more compact products, which is particularly valuable in consumer electronics and architectural lighting. This innovation provides a foundational improvement that can drive the next generation of optical devices.","question":"What are the key benefits of Light Emitting Apparatus and Method for Producing the Same?"},{"answer":"The Light Emitting Apparatus and Method for Producing the Same (US-9853194) differentiates itself from prior art by offering a more targeted and effective solution to light loss, particularly from the side surfaces of light conversion members. While prior art has explored various methods for light management, this patent introduces a distinct and superior approach.\n\nMany existing technologies use reflective films or coatings, but these are often applied to the *rear* of a display or light guide, addressing light that propagates backward. They typically do not optimally manage light that tries to escape *laterally* from the sides of the transparent light-converting component itself. Some complex optical structures like micro-lens arrays exist, but these can add significant manufacturing complexity and cost.\n\nThis innovation stands apart by specifically employing a covering member with a high concentration (not less than 30 wt%) of light reflective material, applied precisely to the *side surfaces* of the light transparent/conversion member. This strategic placement directly intercepts and redirects light that would otherwise be lost through these lateral pathways. This direct, high-reflectivity solution is more efficient and often simpler to implement than many complex multi-layered or micro-structured optical designs found in prior art, leading to more robust performance gains and cost-effectiveness. It's a focused solution to a specific, significant source of inefficiency.","question":"How is Light Emitting Apparatus and Method for Producing the Same different from prior art?"},{"answer":"The Light Emitting Apparatus and Method for Producing the Same (US-9853194) is poised to have a significant impact across several key industries that rely heavily on efficient and high-quality light emission:\n\n1.  **Consumer Electronics:** This includes manufacturers of smartphones, tablets, laptops, smartwatches, and televisions. The patent will enable brighter screens with longer battery life and improved visual fidelity, enhancing user experience and driving product differentiation.\n2.  **Automotive Industry:** For in-car displays (infotainment, dashboards), heads-up displays, and advanced lighting systems (headlights, interior ambient lighting), this technology can provide brighter, clearer, and more energy-efficient solutions, contributing to safety and aesthetic appeal.\n3.  **General Illumination & Architectural Lighting:** Companies producing LED light bulbs, fixtures for homes, offices, and public spaces will benefit from higher lumen output per watt, leading to greater energy savings, reduced operational costs, and more sustainable lighting solutions.\n4.  **Specialized Optical Systems:** This encompasses medical displays, industrial inspection equipment, and emerging technologies like Augmented Reality (AR) and Virtual Reality (VR) headsets, where high brightness, efficiency, and precise light control are paramount. The foundational improvements offered by this patent will enable new levels of performance across these diverse sectors.","question":"What industries will Light Emitting Apparatus and Method for Producing the Same impact?"},{"answer":"The patent \"Light Emitting Apparatus and Method for Producing the Same\" (US-9853194) has specific dates associated with its legal lifecycle:\n\n*   **Filing Date:** The application for this patent was filed on **April 16, 2015**.\n*   **Publication Date:** The patent was officially published on **December 26, 2017**.\n\nThe filing date marks when the invention was first submitted to the patent office, establishing its priority date. The publication date is when the patent document became publicly available, disclosing the details of the invention. These dates are crucial for understanding the patent's legal standing, its place within the timeline of technological development, and for assessing its novelty against prior art. The period between filing and publication allows for examination by patent authorities.","question":"When was Light Emitting Apparatus and Method for Producing the Same filed/granted?"},{"answer":"The commercial applications of the Light Emitting Apparatus and Method for Producing the Same (US-9853194) are extensive, spanning any product or system that utilizes light-emitting components and seeks to maximize their efficiency and performance. Key applications include:\n\n1.  **High-Performance Displays:** Integration into LCD, OLED, and future micro-LED panels for smartphones, tablets, laptops, monitors, and televisions to achieve superior brightness, contrast, and color accuracy with reduced power consumption.\n2.  **Automotive Lighting and Displays:** Used in vehicle dashboards, infotainment systems, heads-up displays, and exterior/interior LED lighting for enhanced visibility, efficiency, and design flexibility.\n3.  **General and Smart Lighting:** Employed in LED bulbs, luminaires, and smart lighting systems for residential, commercial, and industrial settings to deliver higher lumen efficacy, longer lifespan, and significant energy savings.\n4.  **Wearable Technology:** Critical for smartwatches, fitness trackers, and emerging AR/VR headsets, where compact size, high brightness, and extended battery life are paramount.\n5.  **Medical and Industrial Equipment:** Enhancing the performance of specialized displays, optical sensors, and illumination systems in medical devices, industrial inspection tools, and scientific instruments where precise and efficient light output is essential.\n\nThis patent provides a foundational technology that can be licensed or integrated into a wide array of products, offering significant commercial advantages to manufacturers and tangible benefits to end-users.","question":"What are the commercial applications of Light Emitting Apparatus and Method for Producing the Same?"},{"answer":"The Light Emitting Apparatus and Method for Producing the Same (US-9853194) lays a strong foundation for future advancements in light-emitting technology. Building upon its core principle of efficient light recapture, several future developments can be expected:\n\n1.  **Advanced Reflective Materials:** Research will likely focus on even more sophisticated reflective materials with tunable spectral properties, higher diffuse or specular reflectance, and improved durability. This could include nano-structured reflectors or meta-materials that offer precise control over light direction and wavelength.\n2.  **Integration with Emerging Display Technologies:** The principles of this patent are highly applicable to next-generation displays like micro-LEDs, where efficient light extraction from tiny, high-density emitters is crucial. Future developments will involve optimizing its integration at microscopic scales for ultra-high-resolution and ultra-bright displays.\n3.  **Adaptive Light Management Systems:** Combining this technology with smart sensors and control systems could lead to apparatuses that dynamically adjust the reflectivity or light redirection based on ambient light conditions, content being displayed, or user preferences, further enhancing efficiency and user experience.\n4.  **Flexible and Transparent Applications:** As flexible displays and transparent electronics evolve, adapting this light management approach to conform to non-planar or transparent substrates will be a key area of development, enabling new form factors and design possibilities.\n5.  **Enhanced Sustainability:** Continuous improvement in the energy efficiency of this technology will contribute to even lower carbon footprints for electronic devices and lighting, aligning with global sustainability goals and driving innovation in green tech. This patent serves as a springboard for a new era of intelligent and efficient light management.","question":"What are the future developments expected for Light Emitting Apparatus and Method for Producing the Same?"}],"topics":["Light Emitting Apparatus and Method for Producing the Same","light emitting apparatus","light conversion","optical efficiency","display technology","relentless","pursuit","higher"],"tech_cluster":null},"seo":{"title":"Light Emitting Apparatus and Method for Producing the Same - US-9853194","description":"Discover this groundbreaking Light Emitting Apparatus and Method for Producing the Same (US-9853194) for brighter, more efficient displays and lighting. Detailed analysis available.","keywords":["Light Emitting Apparatus and Method for Producing the Same","light emitting apparatus","light conversion","optical efficiency","display technology","LED lighting","reflective materials","energy saving patent","US-9853194","light management","optoelectronics","patent innovation"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9853194","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-9853194","citation_suggestion":"Patentable. \"Light emitting apparatus and method for producing the same\" (US-9853194). https://patentable.app/patents/US-9853194","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9853194","json":"https://patentable.app/api/llm-context/US-9853194","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T07:19:44.100Z"}