Exploring the frontiers of material science for energy sustainability, breakthroughs in batteries, smart electronics, renewable energy systems, and next-generation electric mobility solutions
Creators
- 1. Department of Chemistry, COMSATS University, Islamabad, Islamabad Campus, Pakistan
- 2. Department of Physics, Government College University, Faisalabad, Punjab, Pakistan
- 3. Department of Physics, University of Education, Lahore, Faisalabad Campus, Punjab, Pakistan
- 4. Metallurgy and Materials Engineering, Mehran University of Engineering and Technology, Jamshoro, Sindh, Pakistan
- 5. Department of Chemistry, Balochistan University of Information Technology, Engineering and Management Sciences, Quetta, Balochistan, Pakistan
- 6. Department of Physics, University of Education, Lahore, Faisalabad campus, Punjab, Pakistan
Description
Energy sustainability is a critical issue within the field of material science as the demand for efficient, scalable, and environmentally friendly energy storage solutions continues to rise. This review examines current breakthroughs in materials for energy storage systems, including batteries, super capacitors, and thermal storage technologies. The main aim is to consolidate the existing research, discern significant trends, and underscore the obstacles and deficiencies in advancing energy storage materials. This review evaluates contemporary studies on several material technologies, including lithium-ion, sodium-ion, and solid-state batteries, focusing on their energy density, scalability, sustainability, and environmental impact. It examines emerging research on alternate materials and next-generation energy storage systems, offering a thorough perspective on their potential and limitations. Critical findings indicate an urgent requirement for enhancements in material durability, recyclability, and efficacy in practical applications, given the difficulties of incorporating renewable energy sources into current energy infrastructures. This review also highlights substantial areas for improvement in research, especially regarding material lifespan, practical application testing, and the environmental effects of energy storage devices. This analysis provides practical recommendations for future research, highlighting the necessity for innovative materials that harmonize performance, sustainability, and cost-effectiveness. By solving these shortcomings, subsequent studies will enhance the development of more efficient and eco-friendly energy storage systems, thereby playing a crucial role in the global shift toward renewable energy sources.
Files
GSARJMS2432024 Gelary script.pdf
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(571.8 kB)
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