Aim & Scope

Aim

Innovative Journal of Applied Science is committed to pushing the boundaries of applied science by publishing innovative research and developments. The journal serves as a vital platform for researchers, engineers, and professionals to showcase their newest discoveries, methodologies, and practical applications across diverse areas of applied science. By fostering the exchange of innovative ideas and solutions, it aims to advance the field and promote progress in various scientific disciplines, encouraging collaboration and further exploration among experts in the field.

Scope

Biology and Applied Life Sciences bridges fundamental biological knowledge with practical applications in healthcare, agriculture, and biotechnology. It involves using principles from biology, chemistry, and physics to solve real-world problems, such as developing new pharmaceuticals, improving crop yields, and advancing medical diagnostics. By integrating scientific research with technological innovations, Applied Life Sciences plays an essential role in enhancing human health, food security, and environmental sustainability, driving progress in various industries.

  • Biosciences and Bioengineering
  • Dentistry and Oral Sciences
  • Applied Microbiology
  • Applied Neuroscience and Neural Engineering
  • Agriculture and Agronomy
  • Aquatic and Marine Biology
  • Behavioral Sciences
  • Bioengineering
  • Biomaterials
  • Biomedical Sciences
  • Biotechnology
  • Cell Biology
  • Evolutionary and Developmental Biology
  • Food Science
  • Forestry
  • Genetics and Genomics
  • Plant Sciences
  • Population dynamics
  • Zoology
  • Veterinary Sciences

Engineering is the application of scientific principles to design and build solutions that address real-world problems. It covers various fields such as civil, mechanical, electrical, and chemical engineering. Engineers use mathematical models, experimental techniques, and innovative technologies to develop infrastructure, machinery, and systems. Their work ensures functionality, safety, and efficiency, driving progress and improving quality of life in numerous industries.

  • Computer Engineering
  • Artificial Intelligence
  • Mechanical Engineering
  • Civil Engineering
  • Environmental Engineering
  • Electrical and Electronics Engineering
  • Communications Engineering
  • Applied Industrial Technologies
  • Robotics and Automation
  • Machine Learning
  • Marine Science and Engineering
  • Transportation and Future Mobility
  • Additive Manufacturing Technologies
  • Aerospace Engineering
  • Data Science and Data Analysis
  • Chemical Engineering
  • Complex Structures
  • Energy, Power and Industrial Applications
  • Fluid Mechanics
  • Image Processing and Signal Processing
  • Multiscale Modelling and Multiscale Analysis
  • Optics and Lasers
  • Structural Integrity and Technologies in Construction
  • Sustainable Inventive Systems

Applied Chemistry and Materials Science

  • Materials Science and Engineering
  • Chemical and Molecular Sciences
  • Nanotechnology and Applied Nanosciences
  • Electrocatalysis
  • Click Chemistry
  • Heterogeneous and Homogeneous Catalysis
  • Biochemistry
  • Polymer Chemistry
  • Green Synthesis of Nanoparticles
  • Energy Conversion
  • Biomass
  • Catalysis
  • Water Splitting
  • Fuel Cells
  • Inorganic Chemistry
  • Analytical Chemistry
  • Oxygen Reduction Reaction
  • Electrolysers
  • Food Chemistry

Environmental & Earth Sciences:

  • Environmental Sciences
  • Ecology Science and Engineering
  • Energy Science and Technology
  • Seismology
  • Water
  • Earth Sciences and Geography
  • Climate Change
  • Remote Sensing
  • Green Sustainable Science and Technology
  • Hydrology

Applied Physics

  • Energy Science and Technology
  • Acoustics and Vibrations
  • Applied Physics General
  • Quantum Mechanics
  • Applied Thermal Engineering
  • Electronic Properties of Materials
  • Structure-Property Relationship and Characterization
  • Superconductivity and Magnetism
  • Spintronics
  • Organic Electronics
  • Perovskite/ Silicon Solar Cells
  • Bioelectronics and Sensors
  • Photonic Materials
  • Mechanical Properties of Materials
  • Thermoelectric Materials
  • Nanomaterials/Nanoparticles
  • Energy Transfer, Storage and Conversion
  • Organic Materials Doping
  • Batteries
  • Optical Properties of Materials
  • Alloys and Ceramics
  • Applied Biophysics

Applied Mathematics involves using mathematical methods and models to solve real-world problems across various disciplines, such as engineering, physics, finance, and biology. This field combines theoretical mathematics with practical applications, enabling the analysis and solution of complex issues. Techniques like differential equations, numerical analysis, and optimization are central to applied mathematics. These methods are used to predict natural phenomena, design efficient systems, and optimize processes. For instance, in engineering, applied mathematics helps in modeling and simulating structural behaviors, while in finance, it aids in risk assessment and investment strategies. The versatility of applied mathematics makes it an essential tool for innovation, driving advancements in technology, science, and industry.

Social Science

  • Sociology
  • Anthropology
  • Political science
  • Psychology
  • Economics
  • Humanities
  • History
  • Law
  • Politics
  • Technology
  • Communication
  • Arts
  • Thanatology
  • Political economy
  • Knowledge
  • Philosophy