For more details on the courses, please refer to the Course Catalog
| Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
|---|---|---|---|---|---|---|---|---|---|
| CHY4008 | Field Studies in Chemistry IV | 4 | 8 | Major | Bachelor/Master |
3-4
1-4 |
Korean | Yes | |
| The principal aim of this field studies is to learn how the basic chemical principles are applied to the research and manufacturing systems in chemistry-related industry. Students will meet the chances to understand the application of a chemical principle may be vary depending on the given industrial environments. In addition, by this experience, students would have chances to understand the chemicla principles at advanced level. (for 8 weeks) | |||||||||
| CHY4008 | Field Studies in Chemistry IV | 4 | 8 | Major | Bachelor/Master |
3-4
1-4 |
Chemistry | Korean | Yes |
| The principal aim of this field studies is to learn how the basic chemical principles are applied to the research and manufacturing systems in chemistry-related industry. Students will meet the chances to understand the application of a chemical principle may be vary depending on the given industrial environments. In addition, by this experience, students would have chances to understand the chemicla principles at advanced level. (for 8 weeks) | |||||||||
| CHY4010 | Machine Learning for Chemistry | 3 | 6 | Major | Bachelor/Master | English | Yes | ||
| This course will cover basics of linear algebra and artificial intelligence methods such as classical machine learning methods and deep learning for chemistry and materials science applications. | |||||||||
| CHY4010 | Machine Learning for Chemistry | 3 | 6 | Major | Bachelor/Master | Chemistry | English | Yes | |
| This course will cover basics of linear algebra and artificial intelligence methods such as classical machine learning methods and deep learning for chemistry and materials science applications. | |||||||||
| CHY4011 | Advanced Materials Chemistry 1 | 3 | 6 | Major | Bachelor/Master | - | No | ||
| Materials, based on inorganic chemistry, are essential in the various kinds of application fields, such as semiconductors, energy and environmental materials. In this lecture, the chemical and physical properties of materials are generally discussed, aiming to help students understand the role of chemistry on the applications, through investigating the correlation between the various physicochemical properties of materials and the properties required in the application areas. | |||||||||
| CHY4011 | Advanced Materials Chemistry 1 | 3 | 6 | Major | Bachelor/Master | Chemistry | - | No | |
| Materials, based on inorganic chemistry, are essential in the various kinds of application fields, such as semiconductors, energy and environmental materials. In this lecture, the chemical and physical properties of materials are generally discussed, aiming to help students understand the role of chemistry on the applications, through investigating the correlation between the various physicochemical properties of materials and the properties required in the application areas. | |||||||||
| CHY4012 | Advanced Materials Chemistry 2 | 3 | 6 | Major | Bachelor/Master | - | No | ||
| In this lecture, we will discuss the physical and chemical properties of inorganic compounds with high applicability, such as electronic materials, catalyst materials, energy materials, and environmental materials, from the viewpoint of inorganic chemistry. We will also discuss the future prospects of inorganic materials through in-depth discussion on the chemical properties of materials that are actually used in the current industrial areas. | |||||||||
| CHY4012 | Advanced Materials Chemistry 2 | 3 | 6 | Major | Bachelor/Master | Chemistry | - | No | |
| In this lecture, we will discuss the physical and chemical properties of inorganic compounds with high applicability, such as electronic materials, catalyst materials, energy materials, and environmental materials, from the viewpoint of inorganic chemistry. We will also discuss the future prospects of inorganic materials through in-depth discussion on the chemical properties of materials that are actually used in the current industrial areas. | |||||||||
| CHY4013 | Polymer Material Chemistry | 3 | 6 | Major | Bachelor/Master | English | Yes | ||
| This course will provide an introduction to the chemistry, physics, and analysis of polymer materials. The synthesis, structures, and properties of polymers will be explored. In particular, polymers applied to advanced technology (e.g. optoelectronics, biomaterial, sensor) will be examined. Furthermore, several areas of applied chemistry such as polymer chemistry, material chemistry and process chemistry will be introduced, and also, the industrial research, chemical reaction and manufacturing process will be discussed. | |||||||||
| CHY4013 | Polymer Material Chemistry | 3 | 6 | Major | Bachelor/Master | Chemistry | English | Yes | |
| This course will provide an introduction to the chemistry, physics, and analysis of polymer materials. The synthesis, structures, and properties of polymers will be explored. In particular, polymers applied to advanced technology (e.g. optoelectronics, biomaterial, sensor) will be examined. Furthermore, several areas of applied chemistry such as polymer chemistry, material chemistry and process chemistry will be introduced, and also, the industrial research, chemical reaction and manufacturing process will be discussed. | |||||||||
| CHY4014 | Environmental Energy Materials Chemistry | 3 | 6 | Major | Bachelor/Master | - | No | ||
| Environmental and energy are one of the most important issues over all the science fields including chemistry. To solve various environmental or energy problems, the role of chemistry is critical. Especially, the design and synthesis of functional materials for target environmental and energy issues has been conducted over the world. This class is designed for the graduate students of chemistry department to study the principles of environmental and energy materials. Specifically, the class will handle the environmental materials such as filter, adsorbents, photocatalysts and heterogeneous catalysts and energy materials such as electrode materials of batteries and energy storage devices. | |||||||||
| CHY4014 | Environmental Energy Materials Chemistry | 3 | 6 | Major | Bachelor/Master | Chemistry | - | No | |
| Environmental and energy are one of the most important issues over all the science fields including chemistry. To solve various environmental or energy problems, the role of chemistry is critical. Especially, the design and synthesis of functional materials for target environmental and energy issues has been conducted over the world. This class is designed for the graduate students of chemistry department to study the principles of environmental and energy materials. Specifically, the class will handle the environmental materials such as filter, adsorbents, photocatalysts and heterogeneous catalysts and energy materials such as electrode materials of batteries and energy storage devices. | |||||||||
| CHY4015 | Bio-pharmaceutical chemistry | 3 | 6 | Major | Bachelor/Master | English | Yes | ||
| Most chemosynthetic drugs are made up of chemicals that can be widely used in multiple patient groups without targeting a specific patient group. On the other hand, in the case of biopharmaceuticals, new drugs that are effective and have fewer side effects are being developed targeting specific patient groups based on rapidly developing genetic engineering and antibody technology, which is expected to grow higher than chemosynthetic drugs. This course is a lecture on protein drugs that can maximize bioavailability and therapeutic efficacy, and is designed to learn (1) basic knowledge of materials, (2) drug design, and (3) establish treatment strategies as precision medicine. | |||||||||
| CHY4015 | Bio-pharmaceutical chemistry | 3 | 6 | Major | Bachelor/Master | Chemistry | English | Yes | |
| Most chemosynthetic drugs are made up of chemicals that can be widely used in multiple patient groups without targeting a specific patient group. On the other hand, in the case of biopharmaceuticals, new drugs that are effective and have fewer side effects are being developed targeting specific patient groups based on rapidly developing genetic engineering and antibody technology, which is expected to grow higher than chemosynthetic drugs. This course is a lecture on protein drugs that can maximize bioavailability and therapeutic efficacy, and is designed to learn (1) basic knowledge of materials, (2) drug design, and (3) establish treatment strategies as precision medicine. | |||||||||
| CHY4016 | Scientific Computing | 3 | 6 | Major | Bachelor/Master | English | Yes | ||
| In this course, students learn mathematical methods for their chemistry research. These methods include, but are not limited to, linear algebra, optimization theory, numerical analysis, regression, numerical integration/differentiation, and differential equation. The course consists of simple coding practices; students will perform coding projects. | |||||||||