PDF Publication Title:
Text from PDF Page: 009
Polymers 2020, 12, 440 Polymers 2020, 12, 440 9 of 15 9 of 15 CANF0.04 Ag3d O/C value 2000 CANF0.04 33.51% 0.86% 63.63% 0.5579 O1s area RCF 34.31% Ag3d area - C1s area 65.69% 0.5223 3d 3/2 RCF Ag3d 1200 5000 1000 800 Binding Energy (eV) 200 0 4000 C3 C4 3000 2000 1000 C1 C2 C3 C4 RCF CANF0.04 Ag3d O1s C1s 1600 1200 800 400 7000 5600 4200 2800 1400 3d 5/2 Counts 20000 (a) C1 C2 (b) 600 400 364 368 Binding Energy (eV) 372 376 Binding Energy (eV) 284.6 40.28% 286.1 42.26% 287.4 17.09% 289.1 0.37% RCF C1s C1 C2 C3 C4 Peak area Binding Energy (eV) 284.5 286 287.3 289.1 Peak area 36.34% 44.48% 17.96% 1.22% 00 CANF0.04 C1s C1 C2 C4 C3 291.4 296.1 282.0 286.7 291.4 Binding Energy (eV) 296.1 282.0 286.7 (d) Figure 6. Surface element composition of RCF and CANF0.04: (a) Full scan spectrum of two films; Scan spectrum of Ag3d peaks in two films; (c) Scan spectrum of C1s peaks in RCF; (d) Scan spectrum (b) Scan spectrum of Ag3d peaks in two films; (c) Scan spectrum of C1s peaks in RCF; (d) Scan spectrum Polymers 2020, 12, 440 10 of 15 of C1s peaks in CANF0.04. (c) Figure 6. Surface element composition of RCF and CANF0.04: (a) Full scan spectrum of two films; (b) of C1s peaks in CANF0.04. The surface and c1r00oss section of RCF and CANF0.04 were dense50(Figure 4c–f), and the 2 transmittance of composite filmHaszexceeded 70% (Fyi=g-1u.0r8e14x7+)1,3.2c3o2xr+r5e.1s9p4 onding to the reported high Binding Energy (eV) Transmittance Transmittance trend line R2=0.9944 transparency cellulose‐based composite films [40], indicating that the Ag‐NPs‐MPTS had prominent 90 Haze trend line 40 affinity with cellulose. As the Ag‐NPs content increased, the more opaque Ag‐NPs were dispersed y=0.772x2-7.2884x+86.405 R2=0.9954 uniformly in the film, resulting in a decline in film transparency. The decrease in cellulose 80 30 crystallinity was also a cause of light transmittance decline. In addition, the large number of Ag‐NPs promotes the increase of surface roughness of CANF, which lead to the light scattering ability 70 20 enhanced, thereby the film haze was increased. The slowing trend of light transmittance and haze changed with the increase of Ag‐NPs suggested the addition of too much Ag‐NPs may cause a weaker effect on changed60the film properties. 10 50 0 Figure 7. Transmittance and haze histogram of composite films. Figure 7. Transmittance and haze histogram of composite films. Due to the good affinity between the coupled Ag-NPs and cellulose, Ag-NPs acted as an enhancer, Due to the good affinity between the coupled Ag‐NPs and cellulose, Ag‐NPs acted as an Haze (%) Transmittance (%) Counts (s) Counts (s) Counts (s) Counts (s) CANF0.005 RCF CANF0.02 CANF0.01 CANF0.08 CANF0.04 making the tensile strength of CANF superior to RCF. The tensile strength of films from 55 MPa enhancer, making the tensile strength of CANF superior to RCF. The tensile strength of films from 55 increased to exceed 70 MPa (reach up to 86.4 MPa), and the elongation at break increased more than MPa increased to exceed 70 MPa (reach up to 86.4 MPa), and the elongation at break increased more 50% (Figure 8). The values were better than the silver-loaded cellulose derivative films published than 50% (Figure 8). The values were better than the silver‐loaded cellulose derivative films previously [41]. However, the tensile properties showed the complex changes with the increase in published previously [41]. However, the tensile properties showed the complex changes with the content of Ag-NPs. It may attribute to the decline of cellulose crystallinity, which reduced the order increase in content of Ag‐NPs. It may attribute to the decline of cellulose crystallinity, which reduced the order degree of cellulose chains and made it more difficult to form hydrogen bonds. Thus, the CANF were easier to stretch, and tensile properties could not be continuously increased. 100 90 Tensile strength Elongation at break 12 10PDF Image | One-Pot Synthesis of Antibacterial Silver Nanoparticle
PDF Search Title:
One-Pot Synthesis of Antibacterial Silver NanoparticleOriginal File Name Searched:
polymers-12-00440-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)