The Applied Chemistry major focuses on using chemical knowledge and scientific theories to solve practical problems and develop industrial products and processes. This major aims to link the basic principles of chemistry with their practical applications in various industries, which helps improve the quality of life and develop technology.

Fields of study of applied chemistry:

Industrial Chemistry:

• Study and develop chemical processes used in industry to improve production efficiency and quality.

Medicinal chemistry:

• Developing and manufacturing medicines and medicinal drugs and analyzing their formulations to ensure their effectiveness and safety.

Environmental Chemistry:

• Analyze and develop solutions to problems of environmental pollution and water and waste treatment.

Food chemistry:

• Study and improve the quality and safety of food and beverages, including analysis of ingredients and food additives.

Material Chemistry:

• Development of new materials with specific properties such as polymers, alloys, and nanomaterials.

Applied analytical chemistry:

• Apply chemical analysis techniques to identify and synthesize materials and analyze industrial and environmental samples.

Objectives of studying applied chemistry:

• Product Development: Using chemical knowledge to design and develop new products that meet market needs.
• Improving industrial processes: increasing the efficiency of industrial processes and reducing costs while maintaining high quality.
• Environmental protection: Developing environmentally friendly technologies and practices to reduce pollution and improve sustainability.
• Safety and Quality Assurance: Analyze and develop procedures to ensure the safety and quality of chemical products.
• Research and Development: Conduct applied research to improve current processes and innovate new solutions.

Job opportunities for applied chemistry graduates:

• Pharmaceutical industries: developing medicines and conducting research to ensure their quality and safety.
• Chemical industries: Work in chemical manufacturing companies to improve processes and develop new products.
• Food industries: analysis and development of food products to ensure their safety and quality.
• Environmental laboratories: analyze pollutants and develop strategies for treating water and waste.
• Research and Development: Working in research centers to develop new products and technologies.
• Education: Teaching chemistry in secondary schools or universities and technical institutes.
• Consulting: Providing consultations in the field of chemistry for companies and industrial institutions.

Practical applications of applied chemistry:

• Drug development: Designing and developing new drugs to treat diseases and improve public health.
• Water Treatment: Developing technologies to treat and purify water to ensure the provision of clean drinking water.
• Food Analysis: Ensuring the quality and safety of food products by analyzing their ingredients.
• Chemicals production: Improving industrial processes to produce chemicals with high efficiency.
• Development of new materials: Creating materials with unique properties for use in industrial and technological applications.

Techniques and tools in applied chemistry:

• Spectroscopic analysis:
  Use ultraviolet, visible, infrared, and nuclear magnetic resonance to analyze materials.
• Chromatography:
  The use of gas and liquid chromatography to separate and analyze chemical compounds.
• Mass spectrometry:
  Determine the molecular mass and composition of compounds using mass spectrometric techniques.
• Electrochemical and chemical techniques:
  Use voltammetry and photoelectric analysis to analyze chemicals.
• Biotechnologies:
  Using biological tools such as enzymes and microorganisms to develop environmentally friendly chemical processes.

The Applied Chemistry major offers a combination of theoretical knowledge and practical applications, making it suitable for work in a wide range of industries and sectors. This major provides opportunities to contribute to solving practical problems and developing technologies and products that improve the quality of life.