IndustryARC updated the market research study on “Colorless Polyimide Market”- Forecast (2024 - 2030)
The Colorless Polyimide Market size is forecast to reach USD 875.36 Million by 2030, after growing at a CAGR of 30.05% during the forecast period 2024-2030. In a variety of electronics and micro-optical systems, colorless polyimide is frequently used as flexible substrates. They can be applied in areas where glass is often utilized, such as displays, memory, illumination, and solar cells. During the projected period, it is predicted that the worldwide market for colorless polyimide would increase considerably due to the rising need for flexible displays and printed circuit boards. Additionally, colorless polyimide has numerous desirable qualities, including improved thermomechanical performance, increased chemical resistance, and expanding optical transparency. These CPIs are also smaller, smoother, and less dispersed. They can offer high optical transmission as a result. As a result, the market for colorless polyimide market is growing significantly. A significant portion of the growing market for colorless polyimide is anticipated to come from the electrical and electronics industries.
Report Coverage
The report “Colorless Polyimide Market – Forecast (2024-2030)”, by IndustryARC, covers an in-depth analysis of the following segments of the colorless polyimide market.
By Formulation: Fluorinated CPI, Alicyclic CPI, Non-Coplanar CPI, Others.
By Product Type: Flexible, foldable, or rollable displays, Organic light-emitting diodes (OLEDs), Liquid crystal displays (LCDs), Organic photovoltaics (OPVs), Flexible printed circuit boards (FPCBs).
By End Use Industry: Semiconductors, Solar Energy, Aerospace, Automobile, Military, Others.
By Geography: North America, South America, Europe, APAC, and RoW.
Key Takeaways
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By Formulation - Segment Analysis
The Fluorinated CPI segment dominated the colorless polyimide market in 2022. Fluorinated CPIs predominate over aromatic CPIs in large part because adding charge-negative fluorine atoms to an electron-donating diamine will prevent charge transfer complexes (CTC) from forming and raise the transparency of PI films. Additionally, the free volume between the molecules is expanded as a result of the higher volume of fluorine atoms, which enhances the PIs' ability to conduct electricity. Fluorinated polyimides have a much lower dielectric constant as a result of their reduced moisture absorption and increased hydrophobicity. These polyimides also feature great durability, higher thermal decomposition temperature, visible transparency, low refractive indices, and low refractive indexes. They are good for use in display screens because of these qualities. It offers remarkable chemical stability and good thermal, physical, and mechanical characteristics. They are extensively employed in a variety of industries, including liquid crystal, separation membranes, optical, electrical, and aerospace materials.
By Product Type - Segment Analysis
The Flexible Printed Circuit Boards (FPCBs) segment dominated the colorless polyimide market in 2022. A flexible PCB is a unique printed circuit board that replaces the stiff FR4/metal/PTFE/ceramic substrate with a thin, bendable polyimide (PI) substrate and a PI overlay instead of the solder mask. The increasing popularity of FPCBs in automotive applications is one of the most significant major trends in the market for flexible printed circuit boards. To enhance performance, lighten the load, and increase flexibility, FPCBs are utilized in-car displays, lighting, and other electrical components. In May 2021, SABIC unveiled its brand-new, ultra-pure SD1100P specialty dianhydride powder for polyimide (PI) film formulations, with the goal of using it for applications like 5G flexible printed circuit boards (PCBs), colorless displays, and other flexible electronics. In June 2019, Holitech Technology, a Chinese component manufacturer, opened its first production facility in India. The business would spend around $200 million over a three-year period in India to produce components such as small camera modules, capacitive touch screen modules, thin film transistors, flexible printed circuits, and fingerprint modules.
By End Use Industry - Segment Analysis
The Semiconductor industry dominated the colorless polyimide market in 2022. Increasing demand from semiconductor manufacturers is driving significant growth in the colorless polyimide market. The surge in demand for advanced, high-performance microelectronic components for consumer electronics and other applications is also projected to create lucrative opportunities for the colorless polyimide market. For instance, in 2022, the US government allocated funds of $50 billion under the CHIPS and Science Act to maintain U.S. leadership in semiconductor production and promote well-paying employment. The rise in government funds or grants for manufacturing semiconductors is also anticipated to boost the colorless polyimide market. The demand for colorless polyimide continues to increase due to its superior physical and electrical properties compared to other plastics and metals. Furthermore, the colorless polyimide market continues to benefit from the growing popularity of new semiconductor technologies due to its ability to offer superior thermal and electrical stability.
By Geography - Segment Analysis
Asia Pacific dominated the colorless polyimide market in 2022. This growth is due to China, as the country is one of the key revenue-generating countries for the colorless polyimide market in the APAC region. China has an installed solar PV capacity of about 306.4 GW in 2021, up from 253.4 GW in 2020, according to the International Renewable Energy Agency (IRENA). Large-scale solar PV installation deployments, notably for utility projects, were the cause of the growth. The Centre for Renewable Energy Development (CRED) in China intends to boost the installed capacity of solar PV. In addition, the Electronic Development Fund Policy has been adopted in accordance with the Make in India strategy with the goal of rationalizing a changed tariff structure. A CAPEX subsidy of roughly 15%–20% is also available thanks to the Modified Special Incentive Package Scheme (M-SIPS), which was recently launched. Manufacturers of consumer electronics plan to increase their spending on R&D, production, and distribution in the next years. The rise in government support and funds from various industries has led to the colorless polyimide market expansion.
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Drivers – Fuel Cell Stack Recycling and Reuse Market
Rising Usage in the Aerospace Industry
The optical transparency of colorless polyimides is superior to that of conventional amber-colored polyimides. This quality is advantageous for optically clear aircraft applications such as windows, lenses, display panels, and optical sensors. It allows for improved sight and precise readings in crucial systems. Films made of colorless polyimide have remarkable mechanical qualities, such as great strength and stiffness despite being lightweight. They are therefore perfect for aircraft applications where weight reduction is essential for overall performance and fuel efficiency. For instance, in September 2022, NASA declared that the solar sail created using NeXolve's Colorless Polyimide Films would power the next Artemis I expedition. The sail is believed to be incredibly thin—40 to 100 times thinner than an A4 sheet. Having exceptional UV stability, colorless polyimide resists deterioration and yellowing when exposed to strong sunlight for an extended period. This characteristic is essential for aerospace applications, particularly exterior elements like aircraft windows and coatings, as it guarantees long-term performance and aesthetics. NASA recently made several advancements in the industry, including the development of colorless polyimide films used as thermal-control coatings in aerospace.
Rising demand for flexible, and efficient solar energy solutions
Flexible and bendable solar cells have been developed with substrates made of colorless polyimide. Because of its relatively high melting point and glass transition temperature as well as good mechanical and optical qualities that are retained even after thermal processing, colorless polyimide has been employed in flexible solar cells more frequently than other polymer substrates. In April 2023, Flexible, colorless solar cells based on hydrogenated amorphous silicon have been created by researchers from Korea's Institute of Materials Science, QCells, and Korea Aerospace University. For bifacial and building-integrated photovoltaics (BIPV) applications, they developed techniques to improve the cells. The researchers used a glass and colorless polyimide (CPI) substrate, an aluminum-doped ZnO (AZO) electron transport layer, and a hydrogenated amorphous silicon absorber to construct a 20-micrometer cell for BIPV systems. Technology breakthroughs in the area of flexible solar cells are the result of the growing emphasis on renewable energy sources and the need to capture solar electricity. The development of lightweight, transportable, and aesthetically pleasing solar energy solutions has been made possible by the emergence of colorless polyimide films as a potential material for flexible solar cell applications.
Growing demand for flexible screens for electrical and optoelectronic devices
Flexible organic light-emitting diode (AMOLED) display panels have made major advancements recently. Because they can create displays that are thinner, lighter, and less fractured than hard glass, flexible substrates are being favored by manufacturers of AMOLED displays. In addition to having toughness characteristics similar to metal foils, colorless polyimide films have optical transmittance characteristics that are similar to those of ultra-thin glass. Because of this, OEMs and display manufacturers like using these films in their goods. As an example, LG's foldable display panel, which will be made using colorless polyimide films from SK IE Technology Company, will be used in HP's future 17-inch laptop with a foldable screen. Flexible OLED panel shipments are anticipated to increase 10 times between 2022 and 2028, according to OMDIA. The next generation of flexible smartphones from major phone makers, including Samsung's Galaxy Fold, Huawei's Mate X, and Xiaomi's Mix Fold is also currently being developed. Therefore, it is anticipated that the rise in sales of these flexible electronics will fuel demand for colorless polyimide.
Challenges – Fuel Cell Stack Recycling and Reuse Market.
High Cost of Production
The market's high production costs rank among its biggest obstacles. Colorless polyimide is made via a difficult process that calls for sophisticated machinery and knowledgeable workers. Increased production expenses result from this, which are ultimately passed on to consumers and reduce the CPI's competitiveness in price-sensitive markets. In some applications, the broad use of colorless polyimide may be constrained by its higher cost as compared to other conventional materials. In order to produce colorless polyimides, it may be necessary to use more expensive raw ingredients, production techniques, and specialized equipment, which could result in greater production costs and lower market viability.
Achieving consistency and chemistry in the product
Due to its excellent dielectric characteristics, high heat & chemical resistance, and great mechanical properties, colorless polyimide films have attracted a lot of interest from the optoelectronics industry. But one of the most difficult parts of making these films is striking a balance between high-temperature stability and good optical transparency. Consequently, it is not ideal to produce the colorless form using conventional methods for synthesizing polyimide films. This creates a big barrier for the market. To get over these restrictions, researchers and manufacturers are always examining new molecular designs, refining processing variables, and looking into cutting-edge production methods. Future innovations are anticipated to assist improve the equilibrium between these key features through continued developments in material science and engineering, increasing the potential uses of colorless polyimide.
Market Landscape
Agreements, product launches, partnerships, contracts, expansions, and production capacities are key strategies adopted by players in the colorless polyimide market. In 2022, the Colorless Polyimide Market share has been consolidated by the top ten players accounting for 91.08% of the share. Major players in the colorless polyimide market are DuPont, SKC, Nitto Denko Corporation, Mitsubishi Gas Chemical, Kolon Industries, Inc, Kaneka Corporation, Suzhou Kinyu Electronic Technology Co., Ltd, NeXolve, Taimide Tech Inc., I.S.T Corporation and others.
Developments: