To resolve the challenges that portable devices confront, polymer electrolytes should be developed. Polymer electrolytes have a number of advantages, including nonflammability, low cost, high stability, no leakage, and a long lifespan. In the present research work, PEMA host polymer with potassium iodide salt enclosure is used with ethylene carbonate (EC) plasticizer to enhance mechanical strength and ionic conductivity. The PEMA+40% wt Kl sample conductivity is measured by complex impedance spectroscopy technique and the maximum conductivity obtained is 3.80×10 −6 S cm -1 at room temperature. When EC is added into the solution, there is an increase in conductivity, and the maximum conductivity measured is 4.65×10 −5 S cm -1 with sample PEMA+40% wt KI+ %60 wt EC. The prepared electrolyte structural changes and complex formation are subjected to FTIR and XRD characterization techniques. The pore nature of the synthesized polymer electrolyte is investigated using surface electron microscopy.
Polymer Electrolyte is novel material as renewal energy sources are widely used in the industries. Electrolyte is the main parts of storing/conversion devices. In this review article polymer electrolyte novel material are discussed. In this report various polymer advantage, application, availability, categories of polymer, various approaches, and sample preparation techniques are also described. Polymer electrolyte also used in batteries, fuel cells, supercapacitors, Dye-sensitizes solar cell and energy storing/conversion devices. It is observed that polymer electrolyte is better awareness to the researchers and readers.
This study investigates the possibilities of a sensible indoor horticulture system that blends horticulture activities and hence IoT technology in order to solve critical social crises and the discovery of a today's society. The advantages of gardening are stressed in order to raise living conditions. Personal horticulture is confined for a variety of reasons, which include a shortage of horticulture and living arrangements housing systems. As a result, indoor horticulture has attracted attention, yet it remains a difficulty. Prior literature and techniques have proven that IoT technology may be used in a variety of situations and could perhaps provide a solution to those horticulture issues. To solve the issues, this research suggests a feasible and reasonable indoor horticulture system.
The key goals in developing electrolytes for batteries and solar panels are mechanical strength, ionic conductivity, leakage resistance, and safety. To improve ionic conductivity and mechanical strength, a PEMA-based electrolyte with potassium iodide as salt, ethylene carbonate as plasticizer, and nanofillers is used. To make a thin polymer matrix film, a solution casting approach is used. PEMA+40% wt. KI+60% wt. EC has a maximum ionic conductivity of 4.65×10 −5 S cm -1 when measured using the LC method. After adding CNT, the conductivity of this sample reaches 2.95×10 −3 S cm -1 . Scanning electron microscopy is used to analyze the surface morphology and crystallinity determined by XRD measurements. FTIR research verifies the existence of several components in solid polymer electrolyte.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.