Plasma treatment for PDMS, glass slides, lab-on-a-chip and other microfluidics applications
Remove organic contaminations
Generate hydroxyl and carboxyl surface moieties
Increase surface hydrophilicity
Improve bonding of PDMS microfluodics device with glass or PDMS substrate
Plasma treatment for glass slides and coverslip
Tergeo and Tergeo-plus tabletop plasma cleaner
Microchannels have emerged as powerful tools for various biomedical applications. Control of surface properties is very important in high performance microfluidic devices. Polydimethylsiloxane (PDMS) is one of the most widely used silicone-based polymers in microfluidics because of low cost, ease of fabrication, bio-compatibility and optical transparency. However, PDMS is intrinsically hydrophobic. Microfluidics device usually requires the microchannels to be hydrophilic. Oxygen, argon, nitrogen and ammonia gases have been used to treat the surface of microfluidics and other biomedical devices in order to clean and sterilize the components, make the surface hydrophilic and improve bonding strength. The oxidation process of PDMS must be well controlled. Right amount of oxidation can create enough hydroxyl and carboxyl functional groups on the surface for optimal bonding strength and surface wettability. However, excessive oxidation of the PDMS surface leads to the formation of a brittle layer of silica and results in decreased bonding strength.
Advantage of Tergeo plasma cleaner over competitors
Better plasma uniformity. PIE Scientific has carried out extensive research to improve the uniformity of the plasma generator. It's extremely difficult to achieve uniform rf electric field with external inductor coil type antenna that is used by some cheap plasma cleaner. If metal rf electrode is placed inside the plasma chamber, then it is intrinsically non symmetric in geometry. Plasma will be stronger close to the high voltage rf electrode, especially at the edge of the electrode. Tergeo plasma cleaner uses two symmetric external electrode design to achieve much better plasma uniformity over other type of plasma cleaner design.
Advanced process control technology. Plasma uniformity and strength can change with chamber pressure. Tergeo plasma cleaner uses advanced MEMS based digital pressure sensor technology for pressure monitoring. In addition, PIE Scientific developed a unique plasma sensor technology that can quantitatively monitor the plasma strength in real time. Quantitative data is the key to achieve repeatable and consistent results from day to day.
Fully automatic operation. In some basic plasma systems, user needs to manually adjust needle valve to introduce gas into the plasma chamber. It's almost impossible to achieve repeatable gas flow rate with manual coarse needle valves without any feedback. Tergeo plasma cleaner uses fully automatic mass flow controller (MFC) to precisely regulate gas flow rate from 0 to 100sccm with accuracy better than 0.2 sccm. Fully automatic operation with multiple recipe support also ensures repeatable performance from day to day because the execution of the cleaning process is controlled by embedded microcomputers.