Please use this identifier to cite or link to this item: http://data.ute.udn.vn/handle/123456789/4029
Title: Chuyên đề ngành Hóa Học
Authors: Bui, Quoc Viet
Keywords: Advanced Chemistry, Emerging Technologies, Chemical Research, Materials Chemistry, Medicinal Chemistry, Environmental Chemistry, Scientific Literature.
Issue Date: 14/7/2026
Abstract: This course explores selected advanced topics in modern chemistry with emphasis on recent scientific developments and emerging applications. Students investigate contemporary issues in analytical, organic, inorganic, physical, medicinal, materials, and environmental chemistry through case studies and current research literature. The course promotes critical thinking, scientific communication, and problem-solving skills while providing opportunities to discuss cutting-edge technologies and interdisciplinary applications of chemistry in academia and industry.
Description: 1. Specialized Topic in Chemistry This course emphasizes independent learning, critical analysis of current scientific literature, and presentation of emerging research topics. Students are encouraged to integrate knowledge from multiple areas of chemistry and apply it to solve real-world scientific and technological problems. 2. Antiviral Drugs The course combines fundamental virology with modern antiviral drug development and current therapeutic strategies. Recent advances, including antiviral nanomedicine and emerging viral diseases, are incorporated to strengthen students' understanding of contemporary pharmaceutical research. 3. Antibacterial Agents The course integrates theoretical knowledge with practical applications of antibacterial agents. Special emphasis is placed on antimicrobial resistance, responsible antibiotic use, and the development of innovative antibacterial materials and technologies for healthcare and environmental applications. 4. Chemical Fertilizers The course highlights the relationship between fertilizer chemistry, crop productivity, and environmental sustainability. Students are encouraged to evaluate modern fertilizer technologies and nutrient management strategies that support sustainable agricultural development. 5. Flavorings and Cosmetics The course combines the chemistry of flavorings and cosmetics with product formulation, quality control, safety assessment, and regulatory requirements. Current trends in natural ingredients, green cosmetics, and sustainable product development are also discussed. 6. Medicinal Chemistry The course emphasizes the relationship between molecular structure and biological activity, integrating chemical principles with pharmaceutical sciences. Students are encouraged to analyze drug design strategies using case studies and recent scientific literature, providing a foundation for advanced research and development in medicinal chemistry.
URI: http://data.ute.udn.vn/handle/123456789/4029
Appears in Collections:Slide Bài giảng bộ môn Công nghệ hóa học

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Antibacterial_Agents_English.pptx
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Abstract This course provides a comprehensive study of antibacterial agents, including their classification, mechanisms of action, spectrum of activity, bacterial resistance, and therapeutic applications. Students learn about conventional antibiotics, novel antibacterial compounds, antimicrobial peptides, nanomaterial-based antibacterial systems, and current approaches for combating antimicrobial resistance. Practical applications in healthcare, pharmaceuticals, food safety, and environmental protection are also discussed. Keywords: Antibacterial agents, Antibiotics, Antimicrobial resistance, Drug mechanisms, Nanomaterials, Infection control.1.69 MBMicrosoft Powerpoint XMLbook.png
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Antiviral_Drugs_English_Med chem1.pptx
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This course introduces the principles of antiviral drug discovery and development, including viral structure, replication cycles, mechanisms of antiviral action, drug targets, and antiviral resistance. Students examine major classes of antiviral agents used against clinically important viruses, including influenza viruses, hepatitis viruses, herpesviruses, HIV, and emerging viral pathogens. The course also discusses modern strategies in antiviral drug design, nanomedicine, and combination therapies. Keywords: Antiviral drugs, Viral replication, Drug targets, Antiviral resistance, Drug design, Nanomedicine, Emerging viruses.912.51 kBMicrosoft Powerpoint XMLbook.png
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Chemical_Fertilizers_English.pptx
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Abstract This course introduces the chemistry, production, classification, and applications of chemical fertilizers. Topics include nitrogen, phosphorus, potassium, and micronutrient fertilizers, nutrient availability, soil–fertilizer interactions, fertilizer manufacturing technologies, and sustainable nutrient management. Environmental impacts, fertilizer efficiency, precision agriculture, and emerging eco-friendly fertilizer technologies are also emphasized. Keywords: Chemical fertilizers, Plant nutrition, Soil chemistry, Sustainable agriculture, NPK fertilizers, Precision agriculture.949.2 kBMicrosoft Powerpoint XMLbook.png
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General_Flavorings_Cosmetics_English.pptx
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Abstract This course provides an overview of the chemistry of flavorings, fragrances, and cosmetic products. Students study the composition, synthesis, formulation, quality control, safety evaluation, and regulatory aspects of ingredients used in food flavorings and cosmetic products. The course also introduces natural and synthetic compounds, essential oils, preservatives, antioxidants, colorants, and recent advances in cosmetic science and personal care technologies. Keywords: Flavorings, Cosmetics, Fragrances, Essential oils, Cosmetic chemistry, Product formulation, Safety assessment.749.83 kBMicrosoft Powerpoint XMLbook.png
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Medicinal_Chemistry_English_Med chem2.pptx
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Abstract This course introduces the principles of medicinal chemistry, focusing on the relationship between chemical structure and biological activity. Topics include drug discovery and development, structure–activity relationships (SAR), pharmacophores, drug metabolism, molecular targets, lead optimization, and rational drug design. Students explore major therapeutic classes and modern approaches such as computer-aided drug design, combinatorial chemistry, and nanomedicine. The course emphasizes the application of chemical principles to the discovery and optimization of safe and effective therapeutic agents. Keywords: Medicinal Chemistry, Drug Discovery, Structure–Activity Relationship, Pharmacophore, Drug Design, Drug Metabolism, Therapeutic Agents, Nanomedicine.40.09 kBMicrosoft Powerpoint XMLbook.png
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Flavorings_for_Food_English.pptx
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This course provides a comprehensive introduction to the chemistry, production, formulation, and applications of food flavorings. Students explore the chemical composition of natural and artificial flavor compounds, flavor perception mechanisms, extraction and synthesis techniques, formulation strategies, quality control, and safety evaluation. The course also covers flavor stability, interactions between flavor compounds and food matrices, regulatory requirements, and current trends in the food industry, including natural flavorings, clean-label products, and sustainable flavor technologies. Emphasis is placed on the role of flavor chemistry in improving food quality, consumer acceptance, and product innovation. Keywords: Food Flavorings, Flavor Chemistry, Natural Flavors, Artificial Flavors, Essential Oils, Flavor Formulation, Food Additives, Food Quality, Sensory Evaluation, Food Safety.253.08 kBMicrosoft Powerpoint XMLbook.png
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3-Quy trinh tong hop.pptx
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his course introduces the principles and methodologies of chemical and process development, with emphasis on the design, optimization, scale-up, and industrial implementation of chemical processes. Students learn how laboratory-scale chemical reactions are translated into safe, efficient, and economically viable manufacturing processes. Topics include reaction development, process optimization, process intensification, catalysis, separation and purification, process analytical technologies (PAT), quality by design (QbD), process safety, and environmental sustainability. The course also covers process validation, regulatory considerations, and modern digital tools used in chemical and pharmaceutical manufacturing. Through case studies and industrial examples, students develop the knowledge and skills required to improve product quality, process efficiency, and sustainable production. Keywords: Chemical Process Development, Process Optimization, Scale-Up, Process Design, Catalysis, Separation Processes, Process Analytical Technology (PAT), Quality by Design (QbD), Process Safety, Sustainable Manufacturing, Green Chemistry, Industrial Chemistry.359.37 kBMicrosoft Powerpoint XMLbook.png
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