Figure 7
Contexts in source publication
Context 1
... XRD analysis supports galactose's role in the synthesis of Ag NPs (Figure 7). Pure galactose 's XRD pattern (Figure 7a) and MP's structure (Figure 7d) revealed multiple distinctive peaks in the 2θ area because of their crystalline structure. ...
Context 2
... XRD analysis supports galactose's role in the synthesis of Ag NPs (Figure 7). Pure galactose 's XRD pattern (Figure 7a) and MP's structure (Figure 7d) revealed multiple distinctive peaks in the 2θ area because of their crystalline structure. ...
Context 3
... XRD analysis supports galactose's role in the synthesis of Ag NPs (Figure 7). Pure galactose 's XRD pattern (Figure 7a) and MP's structure (Figure 7d) revealed multiple distinctive peaks in the 2θ area because of their crystalline structure. ...
Context 4
... Ag NPs pattern modified the normal galactose XRD pattern (Figure 7b). At 38.16° and 44.36° of 2θ, the detected signals of Ag NPs are quite weak. ...
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We assert that the ubiquitous environmental factor in inflammatory bowel disease (IBD) is our westernized diet. Therefore, all of our newly diagnosed patients were admitted to experience a plant-based diet (PBD). In the present study, we investigated the efficacy of a PBD in pregnant women with IBD.
Case Description
Included in the stud...
Citations
Due to their electroconductive properties, flexible open-cell polyurethane foam/silver nanowire (PUF/AgNW) structures can provide an alternative for the construction of cheap pressure transducers with limited lifetimes or used as filter media for air conditioning units, presenting bactericidal and antifungal properties. In this paper, highly electroconductive metal-polymer hybrid foams (MPHFs) based on AgNWs were manufactured and characterized. The electrical resistance of MPHFs with various degrees of AgNW coating was measured during repeated compression. For low degrees of AgNW coating, the decrease in electrical resistance during compression occurs in steps and is not reproducible with repeated compression cycles due to the reduced number of electroconductive zones involved in obtaining electrical conductivity. For high AgNW coating degrees, the decrease in resistance is quasi-linear and reproducible after the first compression cycle. However, after compression, cracks appear in the foam cell structure, which increases the electrical resistance and decreases the mechanical strength. It can be considered that PUFs coated with AgNWs have a compression memory effect and can be used as cheap solutions in industrial processes in which high precision is not required, such as exceeding a maximum admissible load or as ohmic seals for product security.
