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INTRODUCTION
Flat panel displays are a type of display technology that is used in a variety of devices such as televisions, computer monitors, and mobile devices.
Flat panel displays are made up of thin layers of polymer material that are sandwiched between two sheets of glass. This type of display technology is much thinner and lighter than traditional CRT displays and is therefore more suitable for use in portable devices.
Polymer materials are the key components of flat panel displays and are essential for providing the necessary strength and flexibility to the displays.
Polymers are synthetic materials that are made from a variety of different chemicals such as polyethylene and polypropylene. These materials are capable of being moulded into thin sheets, which are then used to create flat panel displays.
The use of polymers in flat panel displays has allowed for manufacturers to create thinner and lighter displays with better image quality.
Polymers also provide the flexibility needed to create curved displays, which have become increasingly popular in recent years. Additionally, polymers are highly resistant to heat, which allows them to be used in applications where the display is exposed to high temperatures.
In addition to the advantages of polymers, they also provide a cost-effective alternative to traditional glass displays. By using polymers, manufacturers can produce displays that are thinner and lighter than glass displays, while still having excellent image quality. This means that flat panel displays can be produced more cheaply than their glass counterparts.
Overall, flat panel displays are highly beneficial due to the use of polymer materials. Polymers are capable of providing the strength and flexibility needed to create slim displays, while also allowing manufacturers to produce cost-effective displays.
Furthermore, the use of polymers in flat panel displays has allowed for the production of curved displays, which have become increasingly popular in recent years.
GLOBAL FLAT PANEL DISPLAY POLYMER MARKET SIZE AND FORECAST
The Global Flat panel display polymer market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
Tokyo Electron announced the release of the Betelex2700 PICP EX Plus, a plasma etch system with the new PICP EX Plus chamber intended for high-resolution processes that can process glass substrates from the 8.7th generation. Additionally, APX, a corrosion control module, is being launched today. Displays with 8.7th generation glass substrates are primarily found in OLED-equipped IT products.
It takes etch technologies that achieve greater uniformity and selectivity than ever before, together with stringent production management that includes efficient corrosion reduction and particle control, to produce such large displays with high resolution and high added value. TEL has created the PICP EX Plus plasma module for the 8.7th generation display segment in response to these market demands.
The module has been able to process a greater variety of device structures while achieving better yield, higher production stability, and lower running costs by adding more control over temperature and plasma distribution to TEL’s patented PICP high-density plasma source. Today, TEL also unveiled APX, a recently created module that efficiently manages corrosion through the utilization of its distinct technique. In order to increase productivity, APX can assist clients in achieving greater environmental performance, reducing operating costs, and increasing yield.
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