FOCUS AND SCOPE

Sustainable in Energy and Science Technology Scope:

Sustainable Energy Systems:

Renewable energy technologies (solar, wind, biomass, biofuel, ICE, EV, geothermal, and hydropower)
Energy storage, grid integration, and smart energy systems
Energy efficiency and optimization in industrial processes
Bioenergy production and biofuels from waste and renewable sources
Environmental science and sustainability
Life cycle assessment (LCA) of energy systems
Carbon capture, utilization, and storage (CCUS)
Circular economy approaches in energy and technology systems
Environmental impact of renewable and conventional energy systems

Applied Engineering and Environmental

Development of new materials for energy storage and conversion
Advanced modelling and simulation for energy and environmental systems
Machine learning applications in energy optimization and environmental monitoring
Sustainable technologies for waste management and resource recovery
Renewable energy systems and sustainable engineering solutions

Physical Sciences

Materials science and nanotechnology
Applied physics and quantum technologies
Computational physics and numerical simulations.
Optics and photonics
Life sciences and biotechnology
Properties of solids, liquids, and soft materials.
Superconductivity, magnetism, and electronic properties
Lasers, fiber optics, and optical communication systems
Applications in imaging, sensing, and quantum technologies
Plasma and high-energy physics
Atomic, molecular, and chemical physics
Spectroscopy, reaction dynamics, and molecular interactions
Applications in energy, environment, and industry
Energy systems and renewable energy technologies
Contributions of physical sciences to environmental and sustainability challenges

Chemical Sciences

Synthesis, characterization, and reactivity of organic and inorganic compounds
Catalysis and its applications in green chemistry and industrial processes
Applications of analytical methods in environmental, and material sciences.
Thermodynamics, kinetics, and quantum chemistry
Molecular modelling and computational chemistry
Spectroscopic techniques and their applications
Design and synthesis of functional materials (polymers, nanomaterials, composites)
Green chemistry approaches for sustainable processes and products
Molecular dynamics, quantum mechanics, and cheminformatics
Simulation of chemical reactions and material properties
Innovations in chemical engineering and process optimization
Scale-up and commercialization of chemical technologies
Sustainable and eco-friendly industrial practices

Engineering Technological Advancements

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