Chemistry

Advanced Organic Chemistry

Advanced organic chemistry is a course to deepen and improve the contents of basic organic chemistry. It aims to enable the students to master basic principles of organic chemistry, to understand and use these principles to explain complex organic chemical phenomenon. This course covers multidisciplinary contents, including stereochemistry, carbocation, and free radical reaction, etc.

Advanced Instrumental Analysis

Advanced instrumental analysis is a course to unveil the fine compositions and the internal structure of substances. It aims to enable the students to master the method for analysis on the advanced instruments and use such instruments to analyze and solve problems in the real life. Contents of this course include analytical methods of spectrum, chromatography, mass spectrum, wave spectrum, and other advanced instruments.

Molecular Spectroscopy

Molecular spectroscopy is a course focusing on the interaction between molecules and light. It aims to enable the students to master basic theories, lab skills and data-processing capability of molecular spectroscopy and know how to analyze and interpret spectroscopic data. Contents of this course include basic concepts, principles, and analytical methods of diatomic molecular spectra, etc.

Advanced Inorganic Chemistry

Advanced inorganic chemistry is a course focusing on inorganic chemistry. It aims to guide the students to master the theoretical knowledge system of modern inorganic chemistry and synthetic chemistry, to know and use such knowledge to explain complex inorganic chemical phenomenon. Contents of this course include chemical bond theories, chemical kinetics, energetics, and crystallography, etc.

Advanced Structural Chemistry

Advanced structural chemistry is a course to study, on the level of atom and molecule, the relation between the structure and the performance of atoms, molecules and crystals. It aims to enable the students to know and master, at depth, the basic principles and latest progresses of structural chemistry. Contents of this course include electronic configurations and geometrical configurations, etc.

Catalytic Chemistry

Catalytic chemistry is a course to introduce knowledge concerning catalyst. It aims to enable to the students to master the basic concepts, features, preparations, and representations of catalysis and catalyst. Contents of this course include the foundation of catalyst and catalysis, catalyst surface and in-pore diffusion, and the selection, preparation, use, and regeneration of catalyst, etc.

Resources and Environment

Environmental Reaction Engineering

This course is based on the basic principles and process analysis of reaction engineering and it is in conjunction with applications of air pollution control, water pollution control, solid wastes processing and disposal in the real life. It reflects the new progresses and new achievements made in reaction engineering, especially the application of some new technologies and new-type reactors in environment protection and the processing of three wastes (wastewater, waste gas, and solid wastes).

Environmental Bioengineering

Environment bioengineering is an inter-discipline of environmental engineering and bioengineering. It reflects the application of biotechnology in environment engineering, that is, the use of biology (mainly microorganism in the prevention and control of environmental pollution to make the environment changes in a direction beneficial to the development of human society. It includes both the traditional biotreatment of wastewater, industrial wastes, and municipal solid wastes, and the application of new technologies, such as the micro-biological degradation of pollutants, the biosorption of heavy metals, and the bio-desulfurization and bio-remediation of fossil fuels.

Pollution Control Chemistry and Engineering

This course is the specific application of chemistry and chemical principles in environment engineering. It is an inter-discipline of chemistry, chemical engineering, and environmental science. Contents of this course focus on the use of basic chemical and chemical engineering theories in the pollution control process, the analysis on pollution process and principles, main preparation technology, analysis on real engineering cases, and typical engineering design.

Safety Engineering

Safety engineering is a comprehensive interdisciplinary subject involving electronic information, mechanical engineering, architecture, chemical engineering, and energy. It’s a comprehensive subject focusing on the safety issues concerning industrial enterprises, traffic and transportation agencies, urban communities, and other social organizations and systems.