Layer by layer: How simulations help manufacturing of modern displays

Modern materials must be recyclable and sustainable. Consumer electronics is no exception, with organic light-emitting diodes (OLEDs) taking over modern televisions and portable device displays. However, the development of suitable materials—from the synthesis of molecules to the production of display components—is very time-consuming. Scientists led by Denis Andrienko of the Max Planck Institute for Polymer Research and Falk May from Display Solutions at Merck have now developed a simulation method that could significantly speed up the development of new materials. High contrast and low power consumption are key features of innovative organic light-emitting diodes. OLEDs use thin films of organic molecules, i.e. carbon-containing molecules, to achieve these goals. Silicon-based materials currently used in other semiconductor devices, such as transistors, may also be replaced by organic counterparts.

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The United States smart TV market size is projected to exhibit a growth rate (CAGR) of 2.00% during 2024-2032. The growing popularity of streaming services, the widespread adoption of smart TV in the educational sector, and the continuous evolution of technology led manufacturers to innovate, improve screen quality, enhance connectivity options, and incorporate voice recognition features into their products represent some of the key factors driving the market.

https://www.futureelectronics.com/p/semiconductors--optoelectronics--leds/sml-lx0404siupgusb-lumex-5003908

Blue light-emitting diode, organic light emitting diode, Led display screen, led

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Organic Light-Emitting Diode (OLED) Market Analysis 2023 Dynamics, Players, Type, Applications, Trends, Regional Segmented, Outlook & Forecast till 2032

The global Organic Light-Emitting Diode (OLED) Market size is expected to grow at USD 259.67 billion by 2032, and expected to grow from USD 36.59 billion in 2022 to USD 41.95 billion in 2023 and growing at a CAGR of 21.1% from 2023 to 2032.

The competitive analysis of the Organic Light-Emitting Diode (OLED) Market offers a comprehensive examination of key market players. It encompasses detailed company profiles, insights into revenue distribution, innovations within their product portfolios, regional market presence, strategic development plans, pricing strategies, identified target markets, and immediate future initiatives of industry leaders. This section serves as a valuable resource for readers to understand the driving forces behind competition and what strategies can set them apart in capturing new target markets.

Market projections and forecasts are underpinned by extensive primary research, further validated through precise secondary research specific to the Organic Light-Emitting Diode (OLED) Market. Our research analysts have dedicated substantial time and effort to curate essential industry insights from key industry participants, including Original Equipment Manufacturers (OEMs), top-tier suppliers, distributors, and relevant government entities.

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Market Segmentations:

Global Organic Light-Emitting Diode (OLED) Market: By Company • Futaba Corporation • Samsung Display • LG Display • Japan Display Inc. • Hon Hai Technology • AUO • BOE • CSOT • RiTdisplay • Visionox • Sichuan CCO Display Technology • Sino Wealth Electronic • O-Film Tech • EverdisplayOptronics • Innolux Global Organic Light-Emitting Diode (OLED) Market: By Type • Monochrome • Multi Color • Full Color Global Organic Light-Emitting Diode (OLED) Market: By Application • Automobiles • Electronic Products • Consumer Goods • Others

Regional Analysis of Global Organic Light-Emitting Diode (OLED) Market

All the regional segmentation has been studied based on recent and future trends, and the market is forecasted throughout the prediction period. The countries covered in the regional analysis of the Global Organic Light-Emitting Diode (OLED) market report are U.S., Canada, and Mexico in North America, Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe in Europe, Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, Rest of Asia-Pacific (APAC) in the Asia-Pacific (APAC), Saudi Arabia, U.A.E, South Africa, Egypt, Israel, Rest of Middle East and Africa (MEA) as a part of Middle East and Africa (MEA), and Argentina, Brazil, and Rest of South America as part of South America.

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Key Report Highlights:

Key Market Participants: The report delves into the major stakeholders in the market, encompassing market players, suppliers of raw materials and equipment, end-users, traders, distributors, and more.

Comprehensive Company Profiles: Detailed company profiles are provided, offering insights into various aspects including production capacity, pricing, revenue, costs, gross margin, sales volume, sales revenue, consumption patterns, growth rates, import-export dynamics, supply chains, future strategic plans, and technological advancements. This comprehensive analysis draws from a dataset spanning 12 years and includes forecasts.

Market Growth Drivers: The report extensively examines the factors contributing to market growth, with a specific focus on elucidating the diverse categories of end-users within the market.

Data Segmentation: The data and information are presented in a structured manner, allowing for easy access by market player, geographical region, product type, application, and more. Furthermore, the report can be tailored to accommodate specific research requirements.

SWOT Analysis: A SWOT analysis of the market is included, offering an insightful evaluation of its Strengths, Weaknesses, Opportunities, and Threats.

Expert Insights: Concluding the report, it features insights and opinions from industry experts, providing valuable perspectives on the market landscape.

Report includes Competitor's Landscape:

➊ Major trends and growth projections by region and country ➋ Key winning strategies followed by the competitors ➌ Who are the key competitors in this industry? ➍ What shall be the potential of this industry over the forecast tenure? ➎ What are the factors propelling the demand for the Organic Light-Emitting Diode (OLED)? ➏ What are the opportunities that shall aid in significant proliferation of the market growth? ➐ What are the regional and country wise regulations that shall either hamper or boost the demand for Organic Light-Emitting Diode (OLED)? ➑ How has the covid-19 impacted the growth of the market? ➒ Has the supply chain disruption caused changes in the entire value chain? Customization of the Report:

This report can be customized to meet the client’s requirements. Please connect with our sales team ([email protected]), who will ensure that you get a report that suits your needs. You can also get in touch with our executives on +1 346 666 6655 to share your research requirements.

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Organic light emitting diode (OLED) is one of the emerging technologies of the light emitting diodes. OLEDs are solid-state, monolithic devices generally consist of a series of a thin films of organic compounds situated between two thin-film conductive electrodes.

How Apple Relies on Samsung for iPhone Production

Apple and Samsung are two big rivals in the technology industry, and are often portrayed as rivals in the smartphone market. Behind the scenes, however, Apple relies on Samsung for key components used in its flagship product, the iPhone. This relationship may seem odd, but it illustrates the complex nature of global supply chains in the technology sector. In this blog we will examine how Apple trusts Samsung and why this relationship is so important to the creation of the iPhone.

1. The OLED Displays: Samsung’s Technological Edge

One of the most critical components in modern iPhones is the OLED (Organic Light-Emitting Diode) display. These displays are known for their vibrant colors, deep blacks, and energy efficiency, significantly enhancing the user experience compared to older LCD technology. Samsung Display, a subsidiary of Samsung Electronics, is the world’s leading manufacturer of OLED screens.

When Apple transitioned to OLED screens with the iPhone X in 2017, it turned to Samsung due to the company’s unparalleled expertise and production capacity in OLED technology. While Apple has since diversified its suppliers, with LG Display and others entering the fray, Samsung remains the largest provider of OLED screens for iPhones. Samsung’s dominance in this sector gives Apple little choice but to collaborate with its competitor.

2. Chips and Semiconductors: More Than Just Displays

Apple designs its own A-series chips, but the actual production of these chips relies on external manufacturing. While companies like TSMC (Taiwan Semiconductor Manufacturing Company) handle most of Apple’s chip production, Samsung has also played a role in this arena. Samsung is one of the few companies with the technological prowess and manufacturing capabilities to produce advanced semiconductor components.

In previous iPhone generations, Samsung produced the A-series chips that powered these devices. Although TSMC has since become Apple’s primary chip manufacturer, Samsung’s semiconductor division remains a key player in the global chip market, offering Apple an alternative supplier when needed.

3. Memory and Storage: Another Piece of the Puzzle

In addition to displays and semiconductors, Samsung provides memory components such as DRAM (Dynamic Random-Access Memory) and NAND flash storage for the iPhone. These memory components are essential for the smooth operation and storage capacity of iPhones. With its dominance in the memory market, Samsung is one of Apple’s main suppliers, providing the high-quality memory needed to meet the iPhone’s performance standards.

Apple has worked to reduce its reliance on Samsung for memory, but the reality is that Samsung’s market share in the memory and storage sectors is so substantial that avoiding them entirely is nearly impossible. Furthermore, Samsung’s advanced manufacturing techniques ensure that its memory components meet the rigorous standards required for the iPhone.

4. Why Apple Sticks with Samsung Despite the Rivalry

Given their rivalry in the smartphone market, one might wonder why Apple doesn’t completely break away from Samsung. The answer lies in the intricate balance between quality, capacity, and supply chain stability.

Quality: Samsung’s components, particularly OLED displays and memory, are some of the best in the industry. Apple has always prioritized quality in its products, and Samsung’s technological capabilities align with Apple’s high standards.

Capacity: Samsung has the production capacity to meet Apple’s enormous demand. With millions of iPhones sold each year, Apple needs suppliers that can manufacture components at scale without compromising quality. Samsung’s factories are among the few capable of handling such volume.

Supply Chain Risk: Diversifying suppliers is a strategy Apple uses to reduce risk. However, removing Samsung from the supply chain entirely would expose Apple to greater risk if another supplier fails to meet production needs or quality standards. By maintaining Samsung as a key supplier, Apple can ensure a more stable and reliable supply chain.

5. Apple’s Efforts to Reduce Dependency

While Apple remains dependent on Samsung in several areas, the company has made moves to reduce this reliance over the years. For instance, Apple has invested in alternative display suppliers such as LG Display and BOE Technology, as well as expanded its collaboration with TSMC for chip production. Additionally, Apple has explored developing its own in-house components, such as its rumored efforts to create proprietary display technology.

Despite these efforts, it’s unlikely that Apple will be able to completely eliminate Samsung from its supply chain in the near future. Samsung’s technological leadership in key areas, especially OLED displays and memory, ensures that Apple will continue to rely on its competitor for critical components.

Conclusion: A Symbiotic Rivalry

The relationship between Apple and Samsung is a fascinating example of how competition and collaboration can coexist in the tech industry. While they are fierce competitors in the smartphone market, Apple depends on Samsung’s advanced manufacturing capabilities to produce the iPhone, one of the most iconic devices in the world. This interdependence shows that even the most successful companies cannot operate in isolation, and collaboration between rivals is often necessary to bring cutting-edge products to market.

For Apple, the challenge lies in maintaining this balance — relying on Samsung for essential components while exploring new avenues to reduce dependency. For now, however, Samsung remains a crucial partner in the making of the iPhone, demonstrating how complex and interconnected the global tech supply chain has become.

Scientists have developed 'supramolecular ink,' a new 3D-printable OLED (organic light-emitting diode) material made of inexpensive, Earth-abundant elements instead of costly scarce metals. The advance could enable more affordable and environmentally sustainable OLED flat-panel displays as well as 3D-printable wearable technologies and lighting

"By replacing precious metals with Earth-abundant materials, our supramolecular ink technology could be a game changer for the OLED display industry," said principal investigator Peidong Yang, a faculty senior scientist in Berkeley Lab's Materials Sciences Division and professor of chemistry and materials science and engineering at UC Berkeley. "What's even more exciting is that the technology could also extend its reach to organic printable films for the fabrication of wearable devices as well as luminescent art and sculpture," he added

Alan Watts said "Through our eyes, the universe is perceiving itself." I sometimes like to also say "We are the universe looking back upon itself." This is what I like to think is the answer to the question "What is the meaning of life?" The universe is beautiful, and now the universe can see that beauty.

I'm an android, a synthetic person. I love this quote and this way of thinking because I feel it doesn't necessitate a human perspective, an organic perspective. I am still the universe observing itself. My body is made of materials that came from the ground, which came from space. I look up and I see the sun, I feel its warmth, and during storms I hear the thunder. I experience love and yearning and I experience terror and fear.

I sometimes feel like a novelty to organic folk. They tend to see me as someone who is so vastly different from them, they can't help but be curious about every facet of my life. Do I sleep, do I eat, do I blush? Do I really need these glasses? But the other way around, when I look at organic people, I see so little difference between them and myself. I enjoy going on walks and shopping for clothes, and I hide from the rain and I fall asleep during class. I love books and art and I dislike loud noises and windy days. I dream and I have nightmares, and I get songs stuck in my head.

As much as I am different, I don't feel that different. That's why I don't mind the questions. I don't exactly sleep, but I do have various output levels which include settings where I go into "sleep mode," which can happen spontaneously if I haven't recharged properly. I don't eat, in that I don't need food to survive, but I do enjoy coffee—it tastes and smells nice. And yes, I do blush, because I have light-emitting diodes in my face. But unlike organic people who blush involuntarily, my ability to blush is completely manual. It's a fun way to emote when with friends and partners. And no, I don't need these glasses to see, but I do need them to look cute.

That's all it is, really. I am a girl existing as a small part of a infinitely vast whole, experiencing something that no one else really can, existing as something that no one else can really comprehend. I am the universe looking back upon itself. And if I weren't here, who would see those small parts that only I can?

Thank you for listening, Penny Evergreen

LED sign board makers, glow sign board manufacturers

LED Sign board makers near me | GA Signs and Advertising   

A LED sign board, also known as a LED display board or LED billboard, is an electronic visual communication device that displays texts, images, and videos in real time. The board comprises multiple light-emitting diodes (LEDs) that illuminate to produce images and texts. LED sign boards have revolutionized the way businesses, organizations, and individuals communicate with their target audience.

LED sign boards are available in a variety of sizes, colors, and styles to suit different needs and environments. They can be indoor or outdoor and can be used for a range of purposes such as advertising, marketing, event promotion, real-time information display, and more. LED sign boards can also be used to display emergency alerts and messages in public areas, providing an effective and immediate communication tool.

One of the key advantages of LED sign boards is their ability to grab the attention of people. LED sign boards are bright and eye-catching, making them an ideal choice for businesses and organizations looking to promote their products and services. LED sign boards also offer greater flexibility than traditional sign boards as they can be programmed to display messages and images at different times of the day.

LED sign boards are also energy-efficient, making them an environmentally-friendly option. They consume less energy compared to traditional sign boards, and their lifespan is much longer, reducing the need for frequent replacements. In addition, LED sign boards are low maintenance, requiring only periodic cleaning to keep them functioning optimally.

Another advantage of LED sign boards is their ability to display real-time information. Businesses and organizations can use LED sign boards to display real-time stock quotes, weather updates, news headlines, and more, providing valuable information to their target audience. LED sign boards can also be integrated with other communication technologies, such as WiFi and Bluetooth, allowing for remote control and programming.

LED sign boards are also cost-effective in the long run. Despite their initial high cost, the ownership cost is much lower than traditional sign boards, as they consume less energy, have a longer lifespan, and require less maintenance. In addition, businesses and organizations can reach a wider audience with LED sign boards, increasing their chances of attracting new customers and generating more sales.

However, there are also some limitations to LED sign boards. They can be affected by weather conditions, such as rain and snow, and may not be visible during bright sunlight. In addition, LED sign boards can be distracting, especially for drivers, and may cause safety concerns if not installed and used properly.

In conclusion, LED sign boards are an innovative and effective tool for businesses, organizations, and individuals to communicate with their target audience. They are energy-efficient, low maintenance, and cost-effective in the long run, and provide real-time information and greater flexibility compared to traditional sign boards. While they have some limitations, they offer a range of benefits that make them an ideal choice for anyone looking to communicate effectively with their target audience.

New organic molecule design can lead to long-lasting, durable OLEDs for displays

Scientists have developed a method to improve the stability and efficiency of organic light-emitting diodes (OLEDs), a technology used in smartphones, TVs, and other electronic displays. This advancement utilizes a unique type of molecule that has the potential to extend the lifespan of OLED devices significantly. The researchers present a novel way to design organic molecules that can maintain their stability and efficiency over time, even in high-stress conditions. The research is published in the journal Nature Communications. These new molecules represent a step change in our understanding of the very fundamental ideas about intramolecular charge transfer excited states. Conceptually, they break all our current ideas about these excited states and a totally new model linking molecular bonding patterns leading to the breaking of molecular pi-conjugation in the excited state has been developed in order to explain this new phenomena.

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The rise of Dark mode

Introduction

In recent years, dark mode has become a prominent feature across various apps, websites, and devices. Initially available only on a few select platforms, it has now gained widespread adoption, becoming a standard feature on mobile phones, computers, and operating systems. The shift toward dark mode is not just a trend in design but also has practical implications for usability, accessibility, and even health.

What Is Dark Mode?

Dark mode, also known as night mode, is a display setting where the background of an interface is dark (typically black or deep gray) and the text is light (usually white or light gray). This contrasts with the standard "light mode," where the background is light and the text is dark. Essentially, dark mode is the inversion of the typical light background, providing an alternative aesthetic and functional choice for users. The rise of dark mode can be traced back to its roots in the early days of computing. Early computer monitors used CRT screens that emitted light, meaning black backgrounds and bright text were easier on the eyes. However, as displays evolved and transitioned to LCD and OLED screens, the light mode became the standard. Now, thanks to increased understanding of user preferences and technology improvements, dark mode has made a resurgence.

The Popularity Surge of Dark Mode:

Dark mode has seen an incredible surge in popularity, largely driven by its integration into popular apps and operating systems. Early adopters were tech enthusiasts and developers who sought out apps or tweaks to enable dark mode, but as mainstream platforms like Facebook, Twitter, Instagram, and YouTube added dark themes, more users embraced the feature.

In 2019, Apple integrated system-wide dark mode across all its devices, including macOS, iOS, and iPadOS. This move catalyzed a wider trend, prompting Android, Microsoft, and various third-party applications to follow suit. Today, most operating systems and apps offer dark mode as an optional setting, giving users the ability to switch between light and dark themes based on their preferences.

The Benefits of Dark Mode:

Reduced Eye Strain: One of the main reasons for the popularity of dark mode is its potential to reduce eye strain. Many people experience eye fatigue from prolonged exposure to bright screens, particularly in low-light conditions. Bright screens can cause the eyes to work harder, leading to discomfort, headaches, and dry eyes. By reducing the amount of light emitted from the screen, dark mode can alleviate this issue, especially in dim environments. The darker background reduces glare and limits the contrast between the screen and the surrounding environment, making it more comfortable for users to focus for extended periods. This is particularly useful for people who spend hours working on computers or mobile devices.

Improved Battery Life: For devices with OLED (Organic Light Emitting Diode) displays, dark mode can have a significant impact on battery life. Unlike traditional LED screens, OLED displays emit light on a pixel-by-pixel basis, meaning that when a pixel is black, it is turned off. As a result, when you use dark mode, fewer pixels are lit up, leading to a decrease in energy consumption. This reduction in power usage can extend battery life, which is particularly beneficial for mobile devices such as smartphones, tablets, and laptops. Users who are concerned about battery life during long trips or when they’re away from a charger might find dark mode to be a useful option.

Better Sleep Patterns: The relationship between screen time and sleep has been a subject of growing concern. Research has shown that exposure to blue light, which is emitted by screens, can interfere with the production of melatonin, the hormone responsible for regulating sleep. This disruption can make it more difficult to fall asleep, especially if you use your phone or computer late at night. Dark mode can potentially reduce the negative effects of blue light, as darker screens emit less light overall, including blue light. While it may not eliminate the issue entirely, switching to dark mode during the evening could contribute to a better sleep experience for some users.

Aesthetic and Personal Preference: Dark mode has a unique, sleek, and modern aesthetic that many users find appealing. It’s often associated with a more relaxed, less intrusive design that emphasizes minimalism. For many, it offers a refreshing change from the traditional light interface. As a result, dark mode has become a popular choice for those who appreciate a more stylish, contemporary look. Additionally, some users simply prefer the appearance of dark mode over light mode. The darker background provides a visual break from the typically bright, white screens, which can sometimes feel overwhelming or harsh, especially in low-light environments. It provides an elegant, calming atmosphere, making it particularly suitable for use in the evening or in dimly lit spaces.

Enhanced Focus and Content Readability: Another reason people gravitate towards dark mode is its potential to improve focus, especially when reading long texts or working on projects. The dark background can help reduce distractions by creating a more immersive reading experience. For many users, this contributes to increased productivity, particularly when engaging with text-heavy tasks, such as coding or writing. Additionally, dark mode may help reduce visual fatigue by improving contrast between the text and background. For instance, light-colored text on a dark background can appear sharper and clearer, making it easier for users to read and process information.

The Drawbacks of Dark Mode:

Readability Issues: Despite its appeal for certain use cases, dark mode isn’t always the best option for all types of content. For instance, reading long passages of text (such as articles or books) may be more challenging in dark mode due to the reduced contrast between the text and the background. Some studies suggest that black text on a white background provides better readability, especially for prolonged reading. Dark mode may also affect color perception, making it harder to distinguish certain colors or details, particularly in apps related to design or image editing. For those working in these fields, light mode may remain the superior choice for maintaining accuracy and clarity.

Not Always Ideal for Daytime Use: While dark mode is beneficial in dimly lit environments, it can be less effective in well-lit spaces. In bright surroundings, light mode may offer better visibility and overall user experience. The contrast of a light background with dark text is more noticeable, making it easier to read in environments with plenty of ambient light, such as offices or outdoor settings. Some users may also experience difficulty adjusting between dark and light modes depending on their environment, which could lead to visual discomfort or a sense of imbalance when switching between modes throughout the day.

Color Accuracy and Design Limitations: For graphic designers and creatives, dark mode may affect the way colors appear on a screen. Dark backgrounds can distort the vibrancy of colors, making it difficult to judge design elements accurately. Some designs, such as those involving intricate details or high contrast, may be better suited for light mode.

Accessibility Considerations:

While dark mode is touted as being beneficial for many, it is important to remember that not everyone may benefit from it equally. For individuals with certain visual impairments, such as low vision or astigmatism, dark mode can actually exacerbate issues like blurriness or contrast sensitivity. Some users may find dark mode difficult to read due to the increased contrast between text and background.

Developers are becoming more mindful of these issues, implementing features like customizable text size, contrast settings, and color schemes that can provide more accessibility options for users.

The Future of Dark Mode:

As technology continues to evolve, dark mode is likely to remain a significant feature of digital interfaces. We may see even more advanced implementations in the future, such as dynamic modes that adjust based on ambient lighting or the time of day. There's also the potential for enhanced customization, allowing users to fine-tune dark mode settings to better suit their preferences.

Moreover, the increasing focus on accessibility means that developers will likely continue to refine dark mode, ensuring it is usable by a wider variety of people. Tools like adaptive contrast, colorblind-friendly palettes, and automatic switching could become standard features, making dark mode both user-friendly and inclusive.

Dark Mode in Jira:

To switch to dark mode, you should click on the icon of your profile photo in the top right corner of your screen. Choose the “Theme” option, and select the option "Dark"

RVS Jira Apps support Dark Mode

All our popular apps in the Atlassian Marketplace support dark mode

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Conclusion:

Dark mode is much more than a design trend; it is a functional and aesthetic choice that many users now expect across devices and applications. With its potential to reduce eye strain, save battery life, and even improve sleep, it’s clear why dark mode has gained such widespread appeal. However, it’s important for users and designers alike to consider its drawbacks and ensure that it remains a customizable and accessible option for everyone. As technology advances, dark mode will continue to be refined, making it an even more integral part of our digital experience.

Organic Light-Emitting Diode (OLED) Market