Cupc thermal evaporation
WebOct 17, 2024 · The evaporation rate (5.2 Å/s), temperature (180 °C) and pressure (1 × 10 −5 torr) in the vacuum chamber were the same for all the deposition processes. Energy-dispersive X-ray spectroscopy (EDS) and scanning electron microscopy (SEM) were done on a ZEISS EVO LS 10 scanning electron microscope (Carl Zeiss AG, Oberkochen, … Webof F 16 CuPc were prepared onto pre-cleaned glass substrates using thermal evaporation technique in pressure better that 10-5 mbar using thin film vacuum coating unit (Hind High Vacuum, 12A4D). The rate of evaporation was controlled and kept at 2-5 Aº per sec. The thickness of the films was monitored using quartz crystal thickness
Cupc thermal evaporation
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WebSep 24, 2006 · The α-type CuPc thin film prepared by thermal evaporation has the b-axes parallel to the substrate plane. We report the comparison of the optical structure and the height image of CuPc layer deposited on Si surface using the Near-field solid immersion lens (NSIL) and a contact AFM. WebEvaporation Materials; Evaporation Sources; Target Bonding; Process Equipment Division. ... Thermal Evaporation Sources; Representative Image. Point Source Evaporator Deposition Sources for Organic Materials. ... CuPc: C 60: MAI: Dimensional Drawings . Charts . Low Temperature Datasheet.
WebSep 13, 2024 · The CUPC-CN 7.5% composite achieved a photothermal conversion efficiency of 98.5% in nanofluids with an interfacial solar evaporation efficiency of 93.6% … WebAug 15, 2024 · CuPc/C 60 heterojunction photodetector was prepared by thermal evaporation method. • The spectral response was broadened to near-infrared band at …
WebThe CUPC–CN 7.5% composite achieved a photothermal conversion efficiency of 98.5% in nanofluids with an interfacial solar evaporation efficiency of 93.6% for artificial sea … WebMay 23, 2007 · ExperimentThe films of CuPc, NPB, Alq 3, and LiF were grown on ITO coated glass by thermal evaporation under high vacuum with 3 × 10 − 7 Torr at room temperature and the growth rate of CuPc, NPB, and Alq 3 3, and LiF are 1500 Å, 100 Å, 400 Å, 500 Å, and 10 Å, respectively. SiO 2 layer with a nominal thickness of ∼ 50 Å was …
WebFinally, it is modified with a self-assembled monolayer (SAM) of octadecyltrichlorosilane (OTS). Multilayer CuPc films with different doping concentration were deposited on OTS-modified substrate via thermal evaporation. The evaporation rate is 0.6 nm min −1 for CuPc and 0.3 nm min −1 for CN6-CP with the substrates kept at ambient ...
WebA novel anthracene derivative represented by General Formula (1) is provided, which enables the production of a light-emitting element with high luminous efficiency and a long lifetime. manufacturing readiness assessment processWebSep 13, 2024 · The CUPC-CN 7.5% composite achieved a photothermal conversion efficiency of 98.5% in nanofluids with an interfacial solar evaporation efficiency of 93.6% for artificial sea water and 98.7% for deionized water, … manufacturing readiness level deskbookhttp://diposit.ub.edu/dspace/bitstream/2445/50486/1/569531.pdf kpmg future of commutingWebJan 14, 2014 · After spin-coating at 2000 rpm for 30 s, the substrate was cured in a glove box at 120 °C for 1 h. Next, a 30-nm-thick film of F 16 CuPc was deposited at room temperature by thermal evaporation, using a shadow mask to achieve the desired patterning. The evaporation rate of F 16 CuPc was controlled at 0.2 nm/s under a … manufacturing readiness assessment toolWebCuPc and F 16CuPc molecules. We then investigate possi-ble configurations of CuPc and F 16CuPc molecule on the graphene surface. After optimizing the structures, we found that Pc molecules are physisorbed on EG, lying flat to form well-ordered hexagonal (F 16CuPc) or square lattices (CuPc). A small amount of charge transfer from the EG to the Pc manufacturing record book definitionWebStructures and methods for manufacturing photovoltaic devices by forming perovskite layers and perovskite precursor layers using vapor transport deposition (VTD) are described. manufacturing report testingWebA novel light-emitting device that is highly convenient, useful, or reliable is provided. The light-emitting device includes a first electrode, a second electrode, a unit, and a f manufacturing record book template