By submitting this form, you are agreeing to the Terms of Use and Privacy Policy.
In order to create patterned coatings on surfaces, photoresists are light-sensitive organic chemicals that are typically employed to make integrated circuits and panel displays.
A fundamental component that significantly affects the performance and picture quality of LCD and OLED is photoresist.
It is a product that merges cutting-edge technologies such as semiconductor process technologies, photo-etching technology, materials engineering, and fine chemistry.
It is a liquid chemical that reacts to light to generate fine and minute designs. They also exhibit excellent adhesion to different metal films and indium tin oxides (ITOs), which are employed in the developing and etching processes, high throughput, and reduced dark erosion.
The Global Display Photoresist Market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2022 to 2030.
A new range of complimentary green solvents has been introduced by Merck, a well-known science and technology corporation, for use in photolithographic procedures in the production of semiconductors.
A new range of developed, non-NMP (N-methylpyrrolidone) based chemicals called AZ 910 Remover is intended to dissolve photoresist patterns more quickly and economically.
By stripping the resist with less than three times the solvent volume, AZ 910 Remover can save clients money and lessen the environmental impact of the materials that are dumped into the world’s waste stream.
To lessen Korea’s reliance on Japanese goods, the Electronics and Telecommunications Research Institute (ETRI) has created a photoresist.
It has created a photoresist that can be successfully applied to an OLED microdisplay and achieve pixel sizes of 3 micrometres or less, even at a process temperature of 100 degrees Celsius or less.
Photoresist-based pixel creation at a thin film results in an OLED display. The institute created a 0.7-inch prototype OLED microdisplay that is appropriate for wearable technology.
Unlike existing ones, the institute-developed photoresist can be treated at a low temperature, making it ideal for OLED manufacture.