The Organic Electronics Market is undergoing significant trends as the demand for flexible, lightweight, and energy-efficient electronic devices continues to grow. One notable trend is the increasing adoption of organic materials in electronic components. Organic semiconductors and conductive polymers are gaining prominence in the fabrication of displays, sensors, and transistors, contributing to the development of flexible and bendable electronic devices. This trend aligns with the industry's pursuit of novel materials that offer versatility and improved manufacturing processes for next-generation electronics.
Moreover, the Organic Electronics Market is witnessing advancements in organic light-emitting diode (OLED) technology. OLED displays are becoming increasingly prevalent in smartphones, TVs, and wearable devices due to their superior color reproduction, flexibility, and energy efficiency. Continuous innovation in OLED materials, including organic compounds for efficient light emission, is driving the expansion of OLED applications across various consumer electronics, automotive displays, and signage.
The trend towards sustainable and eco-friendly electronic solutions is shaping the Organic Electronics Market. Organic materials, often derived from carbon-based compounds, offer advantages in terms of biodegradability and reduced environmental impact compared to traditional inorganic materials. Manufacturers are incorporating green and sustainable practices in the production of organic electronic devices, aligning with global efforts to promote environmentally conscious technologies.
Additionally, the integration of organic photovoltaic (OPV) cells in energy harvesting applications is a noteworthy trend. OPV technology enables the conversion of sunlight into electricity using organic materials, providing a flexible and lightweight alternative to traditional solar panels. This trend supports the development of wearable electronics, solar-powered IoT devices, and energy-efficient building-integrated photovoltaics, contributing to the expansion of renewable energy solutions.
The development of organic sensors for various applications is gaining traction in the Organic Electronics Market. Organic sensors, including organic photodetectors and organic field-effect transistors (OFETs), offer advantages such as flexibility, biocompatibility, and low-cost manufacturing. These sensors find applications in medical devices, environmental monitoring, and smart sensing systems, reflecting the industry's emphasis on leveraging organic electronics for advanced sensing capabilities.
Moreover, the adoption of printed and flexible electronics is a transformative trend in the Organic Electronics Market. Printed electronics enable the cost-effective and scalable production of electronic components using additive manufacturing techniques. This trend is particularly relevant in the fabrication of flexible displays, RFID tags, and electronic textiles. The move towards printed and flexible electronics supports the development of lightweight, portable, and customizable electronic devices.
Security features are emerging as a critical consideration in the Organic Electronics Market. With the integration of organic electronics in applications like smart cards, secure identification systems, and anti-counterfeiting measures, manufacturers are incorporating security features such as encryption and authentication to safeguard sensitive data. This trend reflects the industry's commitment to addressing the security challenges associated with electronic devices and transactions.
Furthermore, the Organic Electronics Market is witnessing research and development efforts in the field of stretchable electronics. Stretchable organic materials and circuits enable the creation of electronic devices that can conform to irregular shapes and stretch with movement. This trend is particularly relevant in wearable electronics, healthcare monitoring devices, and electronic skin applications, opening up new possibilities for integrating electronics with the human body.
The integration of organic electronics in the automotive industry is a significant trend. Organic materials are finding applications in automotive displays, lighting, and sensors. The use of organic materials enables the design of curved and customized displays, enhancing the visual appeal of in-car infotainment systems. Additionally, organic LEDs (OLEDs) are being employed in automotive lighting to provide efficient and flexible lighting solutions.
Organic Electronics Market Size was valued at USD 3.7 billion in 2023. The organic electronics market industry is projected to grow from USD 4.41Billion in 2024 to USD 18.24 billion by 2032, exhibiting a compound annual growth rate (CAGR) of 19.4% during the forecast period (2024 - 2032). Growing demand for advanced and high-performance semiconductors, high-quality flexible electronics, and other products, as well as the introduction of supportive government initiatives are the key market drivers enhancing the market growth.
Source: Secondary Research, Primary Research, MRFR Database and Analyst Review
Devices constructed of organic materials are thought to have greater interface ability with biological systems than inorganic materials. Organic materials' improved biocompatibility has also resulted in biomedical applications such as neuron interface. Transparent organic transistors can sense and imitate the electrical processes of lab-cultured human neurons in real time, opening up unprecedented possibilities for neurophysiology. The rapidly expanding consumer electronic goods industry, favorable government efforts, expanding application areas, and improved performance are all expected to drive the organic electronics market CAGR. However, potential barriers to wider acceptance of organic electronics, such as lack of sturdiness and incompatibility with traditional goods, may stymie industry expansion.
Additionally, organic electronics have been discovered to have applications ranging from basic academic research to industrial applications, and they are predicted to grow in the market. This market includes unique applications in the fields of field-effect transistors (FETs), light-emitting diodes (LEDs), and solar cells that will lay the groundwork for a new generation of technology. The semiconducting and conjugated organic materials that can be processed into various devices enable for low-cost production and large area. Furthermore, because many organic semiconductors are mechanically more flexible, they are applicable to flexible electrical elements. The bulk fabrication of the devices is accomplished through high-speed and low-cost methods that require lower temperatures, and it is appreciated by well-known constant in-line roll-to-roll technologies such as rotary screen-printing inkjet, offset, and others that are modified to the precise requirements of the organic materials. Thus, driving the organic electronics market revenue.
The Organic Electronics Market segmentation, based on application includes organic light-emitting diode lighting, solar batteries, displays, memory devices, photovoltaic cells. Displays application seized a significant share in the Organic Electronics Market in 2022 because of increased demand for sophisticated display technologies in various application that include smartphones, laptops, television, and other electronic devices with display screen. Advances in display technology, such as Organic LED (OLED) displays, are likely to drive a surge in demand for organic electronics in the coming years. OLED displays provide various benefits to users, including improved image quality due to increased contrast, a wider viewing angle, higher brightness, significantly faster refresh rates, a larger color gamut, and lower power usage. As a result, the enormous advantages provided by OLEDs have converted display panels into foldable, flexible, ultra-thin, and transparent displays.
The Organic Electronics Market segmentation, based on materials, includes conductors, dielectric, luminescent materials, electrochromic materials. Dielectric category account for a sizable market share in the global industry. A dielectric material is one that does not enable an electric current to pass through it. Dielectrics are commonly utilized as insulators in electronic equipment. Dielectric materials include glass, plastic, and ceramic. They can also be found in their natural forms, such as air and water. Transition metal oxides and sulfides, as well as rare-earth elements, are examples of inorganic dielectrics. Organic dielectrics are manufactured from carbon-based compounds. They can be either synthetic or natural. Polymers, resins, and oils are common organic dielectrics.
The Organic Electronics Market segmentation, based on components, includes active components, passive components. The active components held a significant market share. An active component functions as an alternating-current circuit in a device, increasing active power, voltage, or current. An active component can do this because it is powered by a separate source of electricity from the electrical signal. Furthermore, all active components require an energy source, which is often provided by a DC circuit. Furthermore, an active device, such as a transistor, triode vacuum tube, or tunnel diode, can generally inject power into a circuit.
Figure1: Organic Electronics Market, by component, 2022 & 2032 (USD billion)
Source: Secondary Research, Primary Research, MRFR Database and Analyst Review
By Region, the study provides the market insights into North America, Europe, Asia-Pacific and the Rest of the World. North America dominated the Organic Electronics Market in terms of growth, accounting for a substantial market share. The region is technologically advanced, and it was an early adopter of advanced technologies such as AI, machine learning, and IoT, which supported its rise.
Further, the major countries studied in the market report are The U.S., Canada, German, France, the UK, Italy, Spain, China, Japan, India, Australia, South Korea, and Brazil.
Figure2: Organic Electronics Market SHARE BY REGION 2022 (%)
Source: Secondary Research, Primary Research, MRFR Database and Analyst Review
Europe’s organic electronics market accounts for the second-largest market share due to the rise in the disposable income among individuals. Further, the German organic electronics market held the largest market share and the UK organic electronics market was the fastest growing market in the European region
The Asia-Pacific Organic Electronics Market is expected to grow at the fastest CAGR from 2023 to 2032. This is due to the consumer electronics industry's consistent global growth and consumers' rising disposable income. Moreover, China’s organic electronics market held the largest market share, and the Indian organic electronics market was the fastest growing market in the Asia-Pacific region.
Leading market players are investing heavily in R&D in order to expand their product lines, which will help the organic electronics market, grow even more. Market participants are also undertaking a variety of strategic activities to expand their global footprint, with important market developments including new product launches, contractual agreements, mergers and acquisitions, higher investments, and collaboration with other organizations. To expand and survive in a more competitive and rising market climate, organic electronics industry must offer cost-effective items.
Manufacturing locally to minimize operational costs is one of the key business tactics used by manufacturers in the global organic electronics industry to benefit clients and increase the market sector. In recent years, the organic electronics industry has offered some of the most significant advantages to medicine. Major players in the organic electronics market, including Sumitomo Chemical Co., Ltd. (Japan), Heliatek GmbH (Germany), Novaled GmbH. (Germany), AU Optronics Corp., (Taiwan), Graphic Packaging International, LLC (US) and others, are attempting to increase market demand by investing in R&D operations.
LG Corporation (or LG Group), formerly Lucky-Goldstar from 1983 to 1995, is a South Korean multinational business created by Koo In-hwoi and governed by his family's subsequent generations. It is South Korea's fourth-largest chaebol. Its headquarters are located in Yeouido-dong, Yeongdeungpo District, Seoul, at the LG Twin Towers skyscraper.[3] LG manufactures electronics, chemicals, and telecommunications products and has companies in over 80 countries, including LG Electronics, Zenith, LG Display, LG Uplus, LG Innotek, LG Chem, and LG Energy Solution. In January 2019, LG Display, one of the innovator of display technologies, announced to introduce OLED and LCD displays at CES 2019 in Las Vegas from January 8 to 11. LG Display plans to introduce an 88-inch 8K Crystal Sound OLED (CSO) display with an advanced 3.2.2 channel sound system embedded into the display. Samsung also launched OLED displays for IT and smartphone markets, ultra-large 8K LCDs and a 32:9 curved display.
The Sumitomo Group is one of the largest Japanese keiretsu, or commercial organizations, created about 1615 by Masatomo Sumitomo (1585-1652). The Sumitomo Group's origins may be traced back to a bookshop in Kyoto founded in 1615 by Masatomo Sumitomo, a former Buddhist monk. Even now, the group's management is directed by his 17th-century "Founder's Precepts." In July of 2019, Sumitomo Cherical and Isorg, a leading supplier of organic photodetector devices and large-area image sensors, announced a collaboration agreement to develop organic photodetector devices for use in organic CMOS image sensors and fingerprint sensors in smartphones.
Asahi Kasei Corporation
AU Optronics Corporation
Bayer Material Science AG
Evonik Industries
Fujifilm Dimatix
Merck Kgaa
Novaled
Samsung Display
In January 2024, the experts at FlexEnable made it possible to develop flexible organic electronics in active optics and displays. In this regard, modular products like ambient dimming and adjustable lens film are incorporated into flex-enabled liquid crystal technology. Focused on expanding the possibilities in the AR/VR systems, the manufacturer also showcased an optical assessment kit that makes use of the company’s flexible liquid crystal technology. These are very thin and light active optics and are embedded in the AR /VR which transforms the optical capabilities of the devices enabling far smaller, lighter and curved devices.
In May 2023, in order to develop flexible OLEDs for modern display units, Merck, one of the biggest science and technology firms, unveiled advanced silicon dielectrics using a low temperature Plasma Enhanced Atomic Layer Deposition (ALD) technology. These materials are more effective than current materials and barriers by 100 times and are even 20 times thinner than existing solutions.
In March 2023, Panasonic Holdings Corporation unveiled a new technology that reduces color crosstalk and enhances color reproduction. This innovation consists of using the high light adsorption properties of Organic Photoconductive Film (OPF) and integrating electrical pixel isolation techniques to thin the photoelectric conversion layer. In this technology, the OPF layer that performs the photo conversion, and the charge storage and read-out circuit functions are built into one novel structure but performed as separate layers. This configuration considerably subsists the peripheral pixel response of the green, red and blue wavelengths, resulting in the low inter-pixel chromatic crosstalk and result in more accurate color reproduction than in the previous configurations of the device in different types of illumination.
In August 2022, it was reported that Researchers at the Chalmers University of Technology found a simple modification that can improve the efficiency of organic electronics to two hundred percent. Their findings regarding “double-doped” polymers have the potential applications in OLED screens, plastic solar cells, and bioelectronics among other devices.
Organic Light-Emitting Diode Lighting
Solar Batteries
Displays
Memory Devices
Photovoltaic Cells
Conductors
Dielectric
Luminescent Materials
Electrochromic Materials
Active Components
Passive Components
North America
Europe
Asia-Pacific
China
Japan
India
Australia
South Korea
Australia
Rest of Asia-Pacific
Rest of the World
Middle East
Africa
Latin America
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