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Here we report the water- dipping effect of polymeric interfacial layers on the performance of inverted-type polymer solar cells (PSCs) with polymer:nonfullerene bulk heterojunction (BHJ) layers ...
dielectric performance . In many cases, these films can be used to prepare metal– polymer –semiconductor type Schottky barrier diodes or solar cells , transistors, and light‐emitting diodes. In the literature ...
), high photoluminescence quantum yield (PLQY) and solution processability [1–6], have attracted intensive interest for solar cells [7–13], biosensors [14,15], photodetectors [16–20], field-effect ...
, compared to the cell with the porous polyolefin separator. Figure 4. Open in new tabDownload slide Applications of Nafion as ion-selective separators in varied types of batteries. (a) Li-Nafion coating ...
of multifunctionalized monomers [31]. The three-dimensional network of the hyperbranched polymers allows the fabrication of microporous systems. Conjugated microporous polymers are a vital category of CPs with unique ...
) at a concentration of 10 mg/m’ was used by the researchers. They first dipped the mesh in the solution for 5 minutes and then air dried to evaporate the solution. To check the uniformity of the coating , they have used ...
temperatures (90–200°C) and elevated solution pressures. 3DGNs have been produced through hydrothermal processing [43–48]. GHs with high electrical conductivity have been fabricated via a one-step hydrothermal ...
one of the perspective materials for application to solar cell elements, high-speed computing systems, catalyses and biomarkers in medicine. In the presentation, the process of transformation ...
various nanofillers, there is a great interest in low cost graphene for a wide range of graphene based nanocomposites applications such as sensors, batteries and solar cells , anti-static coating ...
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