PDF Publication Title:
Text from PDF Page: 008
Sensors 2020, 20, x Sensors 2020, 20, 2398 Sensors 2020, 20, x 8 of 13 8 of 13 8 of 13 (a) (a) (b) (b) Figure 8. SEM images of the printed, cured and sintered Ag-layers on type 7 paper substrate; the size bars are 50 μm (a) and 5 μm (b) in length, respectively. Figure 8. SEM images of the printed, cured and sintered Ag-layers on type 7 paper substrate; the size Figure 8. SEM images of the printed, cured and sintered Ag-layers on type 7 paper substrate; the size bars are 50 μm (a) and 5 μm (b) in length, respectively. bars are 50 μm (a) and 5 μm (b) in length, respectively. 3.2. Sheet Resistance Measurement Using Van-der-Pauw’s Method 3.2. Sheet Resistance Measurement Using Van-der-Pauw’s Method 3.2. Sheet Resistance Measurement Using Van-der-Pauw’s Method The reference measurement results for the white PET substrate are listed in Table 2 and The reference measurement results for the white PET substrate are listed in Table 2 and illustrated illustrated in Figure 9. It becomes clear that the sheet resistance is independent of the actual geometry The reference measurement results for the white PET substrate are listed in Table 2 and in Figure 9. It becomes clear that the sheet resistance is independent of the actual geometry of the of the printed pattern for the PET substrate, as the median values lie close to each other and the illustrated in Figure 9. It becomes clear that the sheet resistance is independent of the actual geometry printed pattern for the PET substrate, as the median values lie close to each other and the dispersion of dispersion of the measurement values is in the range of only a few mΩ/□ (see Table 2). Still, the sheet of the printed pattern for the PET substrate, as the median values lie close to each other and the the measurement values is in the range of only a few mΩ/ (see Table 2). Still, the sheet resistance is redsisptaenrscieonisonfotht epemrefeacstulyrermepenrot dvaulcuiebsleis. in the range of only a few mΩ/□ (see Table 2). Still, the sheet not perfectly reproducible. resistance is not perfectly reproducible. Table 2. statistical key data of the sheet resistance measurement values for the PET substrate. TTaabblele22..SstatisticalkeydattaooffththeesshheeettrerseisitsatnacnecemmeaesausruemreemnetnvtavluaelsuefosrftohrethPeETPEsuTbsutrbastter.ate. LinetoWidthRatio 1:12 1:6 1:4 LinetoWidthRatio 1:12 1:6 1:4 Line to WidthSaRmatpiloe Size 1:12 10 101:6 7 1:4 7 27.2 27.6 28.8 28.3 Sample Size 10 10 7 Minimum (mΩ/□) 23.3 25.2 27.2 Sample Size 10 10 Minimum (mΩ/□) 23.3 25.2 27.2 Median (mΩ/□) 25.2 26.5 27.6 Minimum (mΩ/) Median (mΩ/□) 23.3 25.2 Maximum (mΩ/□) 27.9 28.8 28.3 Median (mΩ/) Maximum (mΩ/□) 25.2 26.5 Maximum (mΩ/) 27.9 28.8 28.3 27.9 25.2 26.5 27.6 Figure 9. Dispersion of the sheet resistance around the median value on PET substrate. Figure 9. Dispersion of the sheet resistance around the median value on PET substrate. Figure 9. Dispersion of the sheet resistance around the median value on PET substrate. The measurement results for the paper substrates are presented in Tables 3 and 4, as well as The measurement results for the paper substrates are presented in Tables 3 and 4, as well as The measurement results for the paper substrates are presented in Tables 3 and 4, as well as illustrated in Figure 10. For the paper substrates, the sheet resistance is dependent on the line to illustrated in Figure 10. For the paper substrates, the sheet resistance is dependent on the line to width illustrated in Figure 10. For the paper substrates, the sheet resistance is dependent on the line to width width ratio of the printed structures, respectively. The median sheet resistance value decreases with ratio of the printed structures, respectively. The median sheet resistance value decreases with ratio of the printed structures, respectively. The median sheet resistance value decreases with increasing cross line width and the measurement values are widely dispersed (see Tables 3 and 4 and increasing cross line width and the measurement values are widely dispersed (see Tables 3 and 4 and increasing cross line width and the measurement values are widely dispersed (see Tables 3 and 4 and Figure 10). Figure 10). Figure 10).PDF Image | Inkjet-Printed Ag-Layers on Flexible, Uncoated Paper Substrates
PDF Search Title:
Inkjet-Printed Ag-Layers on Flexible, Uncoated Paper SubstratesOriginal File Name Searched:
sensors-20-02398-v2.pdfDIY PDF Search: Google It | Yahoo | Bing
Turbine and System Plans CAD CAM: Special for this month, any plans are $10,000 for complete Cad/Cam blueprints. License is for one build. Try before you buy a production license. More Info
Waste Heat Power Technology: Organic Rankine Cycle uses waste heat to make electricity, shaft horsepower and cooling. More Info
All Turbine and System Products: Infinity Turbine ORD systems, turbine generator sets, build plans and more to use your waste heat from 30C to 100C. More Info
CO2 Phase Change Demonstrator: CO2 goes supercritical at 30 C. This is a experimental platform which you can use to demonstrate phase change with low heat. Includes integration area for small CO2 turbine, static generator, and more. This can also be used for a GTL Gas to Liquids experimental platform. More Info
Introducing the Infinity Turbine Products Infinity Turbine develops and builds systems for making power from waste heat. It also is working on innovative strategies for storing, making, and deploying energy. More Info
Need Strategy? Use our Consulting and analyst services Infinity Turbine LLC is pleased to announce its consulting and analyst services. We have worked in the renewable energy industry as a researcher, developing sales and markets, along with may inventions and innovations. More Info
Made in USA with Global Energy Millennial Web Engine These pages were made with the Global Energy Web PDF Engine using Filemaker (Claris) software.
Infinity Turbine Developing Spinning Disc Reactor SDR or Spinning Disc Reactors reduce processing time for liquid production of Silver Nanoparticles.
CONTACT TEL: 608-238-6001 Email: greg@infinityturbine.com (Standard Web Page)