1. Automated installation for organic coatings deposition by vacuum thermal evaporation method
- Author
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I. A. Weinstein, A. V. Ishchenko, A. S. Vokhmintsev, E. V. Lee, Roman A. Irgashev, Nikita A. Kazin, and A. O. Gryaznov
- Subjects
chemistry.chemical_compound ,Materials science ,chemistry ,Carbazole ,Analytical chemistry ,chemistry.chemical_element ,Deposition (phase transition) ,Vacuum chamber ,Tin ,Titanium nitride ,Layer (electronics) ,Evaporation (deposition) ,Titanium - Abstract
An automated installation based on National Instruments’ control and measurement equipment, vacuum chamber with resistive heater and “ThermoVac” virtual instrument was designed and tested for deposition of thin organic films by vacuum thermal evaporation method. A 5,11-dimethyl-5,11-dihydroindolo[3,2-b]carbazole layer with thickness of 200 ± 50 nm was applied on the surface of fused silica glass, titanium and titanium nitride substrates. Current-voltage characteristics of Ti/IC/Au and TiN/IC/Au/Ti films were studied. It was determined that deposited organic layer had p-type conductivity and charge carriers mobility of 4.9·10−7 cm2/(V.s).An automated installation based on National Instruments’ control and measurement equipment, vacuum chamber with resistive heater and “ThermoVac” virtual instrument was designed and tested for deposition of thin organic films by vacuum thermal evaporation method. A 5,11-dimethyl-5,11-dihydroindolo[3,2-b]carbazole layer with thickness of 200 ± 50 nm was applied on the surface of fused silica glass, titanium and titanium nitride substrates. Current-voltage characteristics of Ti/IC/Au and TiN/IC/Au/Ti films were studied. It was determined that deposited organic layer had p-type conductivity and charge carriers mobility of 4.9·10−7 cm2/(V.s).
- Published
- 2017