SCS Parylene Deposition System (PARYLENE-SCS)

For Parylene laboratory research, applications developement and testing, the SCS Labcoater 2 Parylene Deposition System (PDS 2010) performs reliable and repeatable application of SCS Parylene conformal coatings.

Parylene conformal coatings are ultra-thin, pinhole-free polymer coatings that provide a number of high-value surface treatment properties such as excellent moisture, chemical and dielectric barrier properties, thermal and UV stability, and dry-film lubricity. These properties make SCS Parylene coatings the ideal choice for a number of applications throughout the medical device, electronics, automotive, military and aerospace industries

Publications:

• JAKEŠOVÁ, M.; KUNOVSKÝ, O.; GABLECH, I.; KHODAGHOLY, D.; GELINAS, J.; GLOWACKI, E., 2024: Coupling of photovoltaics with neurostimulation electrodes-optical to electrolytic transduction. JOURNAL OF NEURAL ENGINEERING 21(4), doi: 10.1088/1741-2552/ad593d; FULL TEXT
  (PARYLENE-SCS, MAGNETRON, SUSS-MA8, EVAPORATOR, RIE-FLUORINE, DIENER, WIRE-BONDER)
• Liu, X.; Fohlerová, Z.; Gablech, I.; Pumera, M.; Neužil, P., 2024: Nature-inspired parylene/SiO2 core-shell micro-nano pillars: Effect of topography and surface chemistry. APPLIED MATERIALS TODAY 37, doi: 10.1016/j.apmt.2024.102117; FULL TEXT
  (RIE-FLUORINE, DRIE, PARYLENE-SCS, XEF2)
• Hu, S.; Wang, D.; Křemenáková, D.; Militký, J., 2023: Washable and breathable ultrathin copper-coated nonwoven polyethylene terephthalate (PET) fabric with chlorinated poly-para-xylylene (parylene-C) encapsulation for electromagnetic interference shielding application. TEXTILE RESEARCH JOURNAL , doi: 10.1177/00405175231168418; FULL TEXT
  (PARYLENE-SCS, LYRA)
• CHMELÍKOVÁ, L.; FECKO, P.; CHMELÍK, J.; SKÁCEL, J.; OTÁHAL, A.; FOHLEROVÁ, Z., 2023: Demolded hollow high aspect-ratio parylene-C micropillars for real-time mechanosensing applications. APPLIED MATERIALS TODAY , p. 1 - 12, doi: 10.1016/j.apmt.2023.101736; FULL TEXT
  (DRIE, PARYLENE-SCS, SUSS-MA8, XEF2)
• GABLECH, I.; MIGLIACCIO, L.; BRODSKÝ, J.; HAVLÍČEK, M.; PODEŠVA, P.; HRDÝ, R.; EHLICH, J.; GRYSZEL, M.; GLOWACKI, E., 2023: High-Conductivity Stoichiometric Titanium Nitride for Bioelectronics. ADVANCED ELECTRONIC MATERIALS 9(4), p. 1 - 11, doi: 10.1002/aelm.202200980; FULL TEXT
  (KAUFMAN, PARYLENE-SCS, KRATOS-XPS, RIGAKU3, KEITHLEY-4200, LYRA, ICON-SPM)

• BRODSKÝ, J.; GABLECH, I.; MIGLIACCIO, L.; HAVLÍČEK, M.; DONAHUE, M.; GLOWACKI, E., 2023: Downsizing the Channel Length of Vertical Organic Electrochemical Transistors. ACS APPL MATER INTER 15(22), p. 27002 - 8, doi: 10.1021/acsami.3c02049; FULL TEXT
  (SUSS-MA8, EVAPORATOR, SCIA, PARYLENE-SCS, RIE-FLUORINE, MIRA-EBL, DEKTAK, ICON-SPM)
• ABUDLLAEVA, O.; SAHALIANOV, I.; EJNEBY, M.; JAKEŠOVÁ, M.; ZOZOULENKO, I.; LIIN, S.; GLOWACKI, E., 2022: Faradaic Pixels for Precise Hydrogen Peroxide Delivery to Control M-Type Voltage-Gated Potassium Channels. ADVANCED SCIENCE , p. 1 - 14, doi: 10.1002/advs.202103132; FULL TEXT
  (DIENER, EVAPORATOR, SUSS-MA8, PARYLENE-SCS, RIE-FLUORINE)
• Gaňová, M., 2022: Digital PCR development. PH.D. THESIS , p. 1 - 92; FULL TEXT
  (SUSS-MA8, SUSS-RCD8, PARYLENE-SCS)
• Slavík, J., 2021: Patterning of excitable cells on multi-electrode arrays. PH.D. THESIS , p. 1 - 102; FULL TEXT
  (DWL, EVAPORATOR, PARYLENE-SCS, RIE-FLUORINE, MAGNETRON, LEICACOAT-NANO, LYRA, ICON-SPM)
• SLAVÍK, J.; ČMIEL, V.; HUBÁLEK, J.; YANG, Y.; REN, T.-L., 2021: Hippocampal Neurons’ Alignment on Quartz Grooves and Parylene Cues on Quartz Substrate. APPLIED SCIENCES-BASEL 11(1), p. 1 - 12, doi: 10.3390/app11010275; FULL TEXT
  (PARYLENE-SCS, RIE-FLUORINE)
• LIU, X.; FECKO, P.; FOHLEROVÁ, Z.; PEKÁREK, J.; KARÁSEK, T.; NEUŽIL, P., 2020: Parylene Micropillars Coated with Thermally Grown SiO2. JOURNAL OF VACUUM SCIENCE & TECHNOLOGY B 38(6), p. 38 - 6, doi: 10.1116/6.0000558; FULL TEXT
  (SUSS-MA8, SUSS-RCD8, DWL, DRIE, RIE-FLUORINE, PARYLENE-SCS, XEF2, APCVD, LYRA)
• Fecko, P., 2019: Gecko mimicking surfaces. MASTER´S THESIS , p. 1 - 52
  (SUSS-RCD8, SUSS-MA8, DWL, DRIE, ALD-FIJI, RIE-FLUORINE, PARYLENE-SCS, XEF2, LYRA, ICON-SPM)
• GABLECH, I.; SOMER, J.; FOHLEROVÁ, Z.; SVATOŠ, V.; PEKÁREK, J.; KURDÍK, S.; FENG, J.; FECKO, P.; PODEŠVA, P.; HUBÁLEK, J.; NEUŽIL, P., 2018: Fabrication of buried microfluidic channels with observation windows using femtosecond laser photoablation and parylene-C coating. MICROFLUIDICS AND NANOFLUIDICS 22(9), p. NA - 7, doi: 10.1007/s10404-018-2125-6; FULL TEXT
  (DRIE, DWL, SUSS-MA8, PARYLENE-SCS, XEF2)