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Chalcogenide Nanocomposites Enabling Materials for Future Energy Solutions
Abstract
The many functions of chalcogenide nanocomposites in cutting-edge energy systems are critically examined in this talk, with a focus on synthetic processes, environmental effects, and performance improvement techniques. Sustainable synthesis methods—such as hydrothermal, solvothermal, and UV-assisted techniques—are given special consideration because they have many benefits, including reduced ecological impact, scalability, and cost effectiveness. Important drawbacks are methodically assessed, such as inadequate cycle stability and subpar energy conversion or storage efficiency. The suggested remediation techniques include compositional engineering to increase electrical conductivity, electrode architectural modification to promote ion/electron transport, and thorough explanation of physicochemical degradation routes under operating settings.In order to solve these issues, the discussion emphasizes the critical role that multidisciplinary research—which integrates materials science, electrochemistry, nanotechnology, and environmental engineering—plays.
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