Solvent for Electronic Materials
ベラジョン 違法oint solvent for electronic materials
Fine processing of electronic materials is challenging when relying solely on low-boiling point or water-based solvents. Therefore, high-boiling point solvents like PGMEA are employed to enhance the process.
We offer an extensive selection of industrial-grade high-boiling point solvents, boasting the widest variety in the industry. Leveraging our experience and insights gained from collaborating with numerous resist and related material manufacturers, we can recommend the ideal solvent tailored to your specific materials and processes.
Advantages of using high-boiling solvents in the coating process
To improve device performance and yield, it is important to coat electronic materials evenly.
Let's compare the coating of ink using a low boiling point solvent and ink using a ベラジョン 違法oint solvent. Ink using a low boiling point solvent dries quickly resulting in coated unevenly.
On the other hand, ink using a ベラジョン 違法oint solvent dries slowly and result in coated evenly . We propose the best solvents for your materials and manufacturing processes from our wide variety of high-boiling solvents.
What CELTOL® can do
CELTOL® is a general term for a group of ベラジョン 違法oint solvents developed with the aim of "improving device performance and yield. " Solvents are often thought of as "just dissolving," but in fact, by selecting the right solvent,
you can control "drying," "solubility," "applicability," and "dispersibility." The example mentioned above is an example of controlling "drying" with ベラジョン 違法oint solvents. ベラジョン 違法oint solvents mainly only control "drying," but CELTOL® controls ”solubility," "applicability," and "dispersibility" in addition to "drying." This contributes to improving the performance and yield of electronic components made by coating/printing.
- Suppresses sheet attack (damage to the substrate) -
The conductive ink used to create the internal electrodes of multilayer ceramic capacitors (MLCCs) is composed of "Ni powder," "binder resin A," and "solvent." The key point here is that the properties of "binder resin A" in the conductive ink and "binder resin B" ベラジョン 違法ric sheet are very similar. General-purpose solvents dissolve "binder resin A," but also dissolve "binder resin B" ベラジョン 違法ric sheet, causing "sheet attack," which creates wrinkles and holes ベラジョン 違法ric sheet.
On the other hand, CELTOL® dissolves "binder resin A" but not "binder resin B," which suppresses sheet attack.
- Ink viscosity adjustment -
Until now, MLCCs have mainly been manufactured by "screen printing" using terpene-based solvents, but by using CELTOL® to reduce the viscosity of the ink, it is now possible to manufacture them by "gravure printing". This allows for a significant increase in the amount of MLCCs produced per unit time. while lowering the ink viscosity, damage to the substrate is suppressed, so yields can be maintained.
CELTOL® can also increase the viscosity of ink .
We have a wide range of ベラジョン 違法oint solvents in stock.
If you would like to improve the performance and yield of your devices, please feel free to contact us.