Focus and Scope

Knowledge & Innovation in Molecular and Industrial Applications (KIMIA) focuses on the publication of original research articles, review articles, and short communications in the field of pure and applied chemistry. The journal covers the synthesis, characterization, analysis, and application of chemical compounds, materials, and biomolecules in science, technology, health, environment, and industry. The journal aims to promote scientific knowledge, innovation, and technological development in molecular science and industrial chemical applications.

Scope
The scope of the journal includes, but is not limited to, the following areas:

1. Organic Chemistry
   Organic Chemistry studies the structure, properties, synthesis, reactions, and applications of carbon-containing compounds, including natural products, organic polymers, and bioactive compounds.
   
   
2. Inorganic Chemistry
   Inorganic Chemistry focuses on the properties, structure, synthesis, and reactions of inorganic compounds such as metals, minerals, ceramics, coordination compounds, and inorganic materials.
   
   
3. Analytical Chemistry
   Analytical Chemistry focuses on methods, techniques, and instruments used for qualitative and quantitative analysis of chemical substances, including spectroscopy, chromatography, and electrochemical methods.
   
   
4. Physical Chemistry
   Physical Chemistry studies the physical principles underlying chemical systems, including thermodynamics, reaction kinetics, quantum chemistry, and spectroscopy.
   
   
5. Materials Chemistry
   Materials Chemistry involves the synthesis, characterization, and application of new materials such as nanomaterials, biomaterials, composites, and functional materials.
   
   
6. Environmental Chemistry
   Environmental Chemistry studies chemical processes occurring in the environment (water, soil, and air), including pollution, waste treatment, environmental remediation, and atmospheric chemistry.
   
   
7. Biochemistry and Medicinal Chemistry
   This field studies chemical compounds and processes in biological systems such as proteins, enzymes, DNA, metabolism, as well as drug design and pharmaceutical compounds.
   
   
8. Computational and Theoretical Chemistry
   Computational and Theoretical Chemistry involves molecular modeling, chemical simulations, quantum chemistry calculations, and theoretical studies of molecular structure and energy using computational methods.
   
   
9. Nanochemistry and Nanotechnology
   Nanochemistry and Nanotechnology focus on the synthesis, characterization, and application of nanoscale materials in medicine, energy, environment, and electronics.
   
   
10. Catalysis and Chemical Reactions
    This field studies reaction mechanisms, reaction kinetics, and the use of catalysts to accelerate chemical reactions in laboratory and industrial processes.
    
    
11. Polymer and Macromolecular Chemistry
    This field studies the synthesis, structure, properties, and applications of polymers and macromolecules such as plastics, rubber, resins, and polymer-based biomaterials.
    
    
12. Food Chemistry
    Food Chemistry studies the chemical composition of food, food additives, chemical changes during food processing, food safety, and nutrition.
    
    
13. Natural Products and Phytochemistry
    This field studies chemical compounds derived from plants, microorganisms, and marine organisms, including isolation, identification, and bioactive compound analysis.
    
    
14. Electrochemistry
    Electrochemistry studies chemical reactions involving electron transfer such as batteries, fuel cells, corrosion, electroplating, and electrochemical sensors.
    
    
15. Green Chemistry
    Green Chemistry focuses on environmentally friendly chemical processes and products that reduce waste, save energy, and use safer and sustainable materials.
    
    
16. Chemical Engineering and Applied Chemistry
    This field involves the application of chemical principles in industrial processes, reactor design, chemical production processes, separation processes, and industrial chemical technology.
    
    
17. Pharmaceutical Chemistry
    Pharmaceutical Chemistry studies the design, synthesis, analysis, and development of pharmaceutical compounds and active pharmaceutical ingredients.
    
    
18. Surface Chemistry and Colloid Chemistry
    This field studies chemical phenomena occurring at material surfaces, including adsorption, surfactants, emulsions, colloids, and interfacial interactions.