Applied Chemistry
Faculty: School of Chemistry and Chemical Engineering
Degree: MS
Specialty: Applied Chemistry
Minimum Total Credits: 25.0
Minimum Compulsory Course Credits: 15.0
Minimum Optional Course Credits: 10.0
Objectives
The program aims to cultivate high-level specialists who are well-developed in moral, intellectual and physical aspects and equipped with basic theories and profound specialized knowledge of Applied Chemistry. Students are supposed to be competent to undertake scientific researches and technological development of the field independently.
Years of Study
Three years
Major Research Fields
1. Chemistry and Technology of Fine Chemicals
2. Separation Technology and Resource Utilization
3. Applied Electrochemistry and Fuel Cell Technology
4. Industry Analysis
5. Environmentally Friendly Synthetic Chemistry
6. Functional Materials Chemistry and Applications
7. Electroanalytical Chemistry and Bioelectric Chemistry
Cultivation Objectives
Advisory system is applied in this program. Students should set out a working program in the first two weeks after registration. Students are supposed to participate in the stage assessment according to Master Degree Candidate Medium-Term Screening Method of South China University of Technology and complete the required social practices before the end of the third semester.
Dissertation
Students should draw up thesis plans and write Thesis Proposals between the 11th and 20th weeks in the third semester. Before applying for Thesis Defense, students are required to publish officially one academic paper in core journals (recruited papers in academic conferences of all levels are accepted) with South China University of Technology signed as the first unit, or with the student signed as the fist author, or with the supervisor signed as the first author whereas the student the second, or have one authorized patent, or testimonial papers of technology development provided by the supervisor. Thesis defense will be arranged according to Rules for the Implementation of Graduation Degrees of South China University of Technology and Regulations of the Applications for Thesis Defense of South China University of Technology on the completion of theses.
Curriculum
Compulsory Courses | Course Code | Course Title | Credit |
S0001001 | Scientific Socialism Theory and Practice | 1 |
S0001002 | Introduction to Dialectics of Nature | 2 |
S0002011 | First Foreign Language (Essential English) | 3 |
S0817103 | Chemical Engineering Progress | 2 |
Group 1 of Compulsory Courses | S0004023 | Theoretical Organic Chemistry | 3 |
S0004028 | Colloid and Interface Chemistry | 3 |
S0703006 | Catalysis and Energy Chemistry | 2 |
S0703009 | Quantum Chemistry | 2 |
S0703012 | Modern Analytical Instruments and Techniques | 2 |
S0703013 | Modern Industrial Analysis | 2 |
S0703045 | Nanoscience and Nanotechnology | 2 |
S0703071 | Theoretical Electrochemistry | 2 |
S0703072 | Advanced Inorganic Chemistry | 2 |
S0703075 | English for Special Purposes (Chemistry) | 2 |
S0817071 | Chemical Analysis Methods and Experimental Techniques of Modern Chemistry | 3 |
S0817109 | Modern Coating Chemistry | 2 |
S0817110 | Fine Chemical Engineering | 2 |
Optional Courses | S0004024 | Chromatographic Separation Techniques | 2 |
S0004034 | Scientific Writing and Submission Guidance | 1 |
S0703011 | Biological Inorganic Chemistry | 2 |
S0703025 | Special Organic Synthesis Experiments | 2 |
S0703055 | Organometallic Chemistry | 2 |
S0805060 | Research Progress of Surfactants Applications | 2 |
S0817005 | Simulation and Optimization System of Heat Exchangers and Heat Transfer | 2 |
S0817014 | Heterogeneous Photocatalytic Reactions and Design Principles of Reactor | 2 |
S0817019 | Environmental Functional Materials and Characterization Techniques | 2 |
S0817025 | Chemical Product Engineering | 2 |
S0817027 | Basis of Membrane Separation Technology | 2 |
S0817030 | Introduction to Modern Air-Conditioning Energy Saving Technology | 2 |
S0817060 | Catalytic Materials(I) | 2 |
S0817062 | Modern Catalytic Technology(I) | 2 |
S0817066 | Modern Characterization Techniques of Polymer | 2 |
S0817074 | Natural Gas Utilization Technology | 2 |
S0817078 | Molecular Pharmacology | 2 |
S0817079 | Modern Pharmaceutical Preparations | 2 |
S0817080 | Chemical Biology | 2 |
S0817081 | Principle and Application of Computer Molecular Simulation | 2 |
S0817087 | Chemical Computer Applications | 2 |
S0817088 | Resource Utilization and Extraction of Natural Products | 2 |
S0817092 | Catalysts Characterization and Practical Research Methods | 2 |
S0817093 | Fluidization Engineering | 2 |
S0817094 | Water-Soluble Polymer | 2 |
| S0817095 | Inorganic Membrane Technology | 2 |
| S0817096 | Design and Synthesis of Optoelectronic functional molecule | 2 |
| S0817100 | Chemical Adsorption Separation Principle | 2 |
| S0817101 | Heat Transfer Enhancement and Energy Saving Technology | 2 |
| S0817102 | Thermodynamic Analysis of Chemical Process and Energy Synthesis(I) | 2 |
| S0817105 | Modern Separation Technologies | 2 |
| S0817106 | Energy and Environmental Materials | 2 |
| S0817107 | Analysis and Design of Chemical Process | 2 |
| S0817108 | Computational Heat Transfer | 2 |
| S0817112 | Modern Coating Chemistry | 2 |
01. Chemistry and Technology for Fine Chemicals
02. Separation Technology and Resource Utilization
03. Applied Electrochemistry and New Energy Sources
04. Chemistry in Pollutant Control
05. Chemistry in Environmentally Friendly Synthesis
06. Functional Materials Chemistry and Application
Inorganic chemistry
01. Organometallic and Coordination Chemistry
02. Chemistry of Inorganic Function Materials
03. Chemistry of Nanomaterials
04. Chemistry of Seperation
05. Bioinorganic Chemistry
06. Inorganic Synthetic Chemistry
Organic chemistry
01. Synthetic Organic Chemistry
02. Natural Products and Phytochemistry of Medicinal Plants
03. Organic Functional Materials
04. Fine Organic Chemicals
05. Chemical Biology
Physical chemistry
01.Chemistry kinetics
02.Catalysis and catalyst
03.Electrochemistry and fuel cell
04.Materials chemistry
05.Nanochemistry and technology
06.Applied quantum chemistry
Analytical chemistry
01. Environmental Analytical Chemistry
02. Electroanalytical chemistry
03. Spectroscopy and chromatography
04. Spectroscopy
05. Biochemical Analysis