Postgraduate Courses
CHEM
Chemistry
- CHEM 5110Advanced Organic Chemistry I[3-0-0:3]Previous Course Code(s)CHEM 511BackgroundCHEM 2118 (prior to 2017-18), CHEM 3120 and CHEM 4140DescriptionMechanism and theory in organic chemistry, molecular orbital theory, structure-activity relationships, isotope effects, solvent effects, neighboring group participation, and reactive intermediates.Intended Learning Outcomes
On successful completion of the course, students will be able to:
- 1.Select appropriate methods to evaluate the reaction mechanism.
- 2.Interpret experimental results and draw conclusions about reaction mechanism with confidence.
- CHEM 5120Advanced Organic Chemistry II[3-0-0:3]Previous Course Code(s)CHEM 512Prerequisite(s)CHEM 5110DescriptionStereochemistry and conformational analysis, reactions of various classes of organic compounds, synthetic organic chemistry, modern methods of synthesis including specific methodologies and multistep complex syntheses.
- CHEM 5160Advanced Medicinal Chemistry[3-0-0:3]Previous Course Code(s)CHEM 516DescriptionDrug design, structure-activity relations, chemistry and biological effects of major classes of physiologically active and psycho-active drugs.
- CHEM 5210Computational Chemistry[2-0-3:3]Previous Course Code(s)CHEM 521BackgroundCHEM 3420DescriptionFundamentals and applications of various computational chemistry methods, including molecular orbital calculations, molecular mechanics and molecular dynamics. Computational laboratory practice will be emphasized.
- CHEM 5220Statistical Mechanics: Theory and Applications in Complex Systems[3-0-0:3]BackgroundCHEM 2418 Physical ChemistryDescriptionClassical statistical mechanics and its applications in complex chemical and biological systems.
- CHEM 5230Quantum Chemistry[3-0-0:3]BackgroundCHEM 3420 OR EquivalentDescriptionIntroduction to basic theories of Quantum Chemistry. Popular theories used in modern Quantum Chemistry such as Hantree-Fock theory, Density Functional theory. Perturbation Theories, and other quantum chemistry theories will be introduced in this course.
- CHEM 5310Advanced Inorganic Chemistry I[3-0-0:3]Previous Course Code(s)CHEM 531DescriptionSymmetry, group theory; molecular orbitals, electronic states; ligand field theory; electronic structure of metal complexes; theory of bonding and structure of inorganic compounds; chemistry of the elements; major physical methods used in the determination of molecular structure and bonding.
- CHEM 5340Chemical X-ray Crystallography[3-0-0:3]Previous Course Code(s)CHEM 534DescriptionApplications of X-ray diffraction methods to the determination of crystal structures, including crystal symmetry, reciprocal lattice, intensity of diffraction, the phase problem, and refinement of structure parameters, powder X-ray diffraction analysis.
- CHEM 5410Atmospheric Chemistry[3-0-0:3]Previous Course Code(s)CHEM 541Co-list withENVR 5410Exclusion(s)ENVR 5410BackgroundBasic knowledge of physical chemistryDescriptionA fundamental introduction to the physical and chemical processes determining the composition of the atmosphere and its implications for climate, ecosystems, and human welfare. Atmospheric transport and transformation. Stratospheric ozone. Oxidizing power of the atmosphere. Regional air pollution: aerosols, smog, and acid rain. Nitrogen, oxygen, carbon, sulfur geochemical cycles. Climate and the greenhouse effect.
- CHEM 5420Advanced Analytical Chemistry[3-0-0:3]DescriptionVarious modalities of spectroscopy, spectrometry and microscopy, separation methods, probes and sensors, miniaturized analytical systems, environmental analysis and bioanalysis.Intended Learning Outcomes
On successful completion of the course, students will be able to:
- 1.Describe strengths and weaknesses of specific advanced analytical procedures.
- 2.Identify suitable analytical techniques for specific compounds and problems.
- 3.Recognize spectroscopic methods suitable for the analysis of particular molecules.
- 4.Explain how the scaling of analytical systems affects their properties.
- 5.Design probes and sensors tailored to specific analytes.
- 6.Apply microscopic techniques for the analysis of small scales.
- CHEM 5540Chemistry for Advanced Materials[3-0-0:3]Previous Course Code(s)CHEM 554Co-list withNANO 5100Exclusion(s)CHEM 4220, NANO 5100DescriptionLiquid crystals, light emitters, conducting polymers, photoconductors, photoresists for nano- and microelectronics, nanostructured materials and devices, optical information storage, chromism, and piezo- and pyroelectricity.Intended Learning Outcomes
On successful completion of the course, students will be able to:
- 1.Define the core ideas and concepts of materials science and technology.
- 2.Recognize the power of chemical synthesis and materials preparation and carry out investigative research work with independent judgment.
- 3.Apply chemical principles to formulate and analyze analytical and synthetic problems.
- 4.Conduct analysis and interpretation of experimental data.
- 5.Communicate problem solutions using correct materials chemistry terminology in English.
- CHEM 5880Polymer Chemistry[3-0-0:3]Previous Course Code(s)CHEM 588Prerequisite(s)CHEM 2112 (prior to 2017-18) or CHEM 3120Exclusion(s)CHEM 324 (prior to 2011-12)DescriptionModern Polymer synthesis, step and chain polymerizations, macromolecular structures, and polymer properties.
- CHEM 6000Chemistry Seminar[0-1-0:1]Previous Course Code(s)CHEM 600DescriptionSeries of seminar topics presented by students, faculty and visiting speakers; may be repeated for credit. Graded P or F.
- CHEM 6010Special Topics in Chemistry (JCAS)[2-4 credits]Previous Course Code(s)CHEM 601DescriptionAdvanced courses in postgraduate Chemistry including those offered by sister institutions in Hong Kong under the Joint Center for Advanced Studies initiative. Credit to be determined on case by case basis based on workload.
- CHEM 6030Special Topics in Chemistry[1-4 credit(s)]Previous Course Code(s)CHEM 603DescriptionSelected topics of current interest to the Department not covered by existing courses. May be repeated for credit if different topics are covered.
- CHEM 6770Professional Development in Science (Chemistry)[0-2-0:2]DescriptionThis two-credit course aims at providing research postgraduate students basic training in ethics, teaching skills, research management, career development, and related professional skills. This course lasts for one year, and is composed of two parts, each consisting of a number of mini-workshops. Part 1 of the course is coordinated by the School; and Part 2 consists of some department-specific workshops which are coordinated by the department. Graded PP, P or F.
- CHEM 6771Professional Enrichment in Chemistry[0-1-0:1]Exclusion(s)CHEM 6770DescriptionThe one-credit course aims to equip students with basic discipline-specific skills and knowledge for their personal and career development in the chemistry area. Training will be provided in the form of mini-workshops or activities. Graded PP, P or F.Intended Learning Outcomes
On successful completion of the course, students will be able to:
- 1.Demonstrate laboratory and tutorial teaching skills.
- 2.Demonstrate self-management skills and career development knowledge.
- 3.Apply information seeking skills and knowledge in professional conduct.
- 4.Apply research management skills in research publication.
- 5.Demonstrate and apply skills in publishing and presenting their research results.
- CHEM 6980Research Project[1-4 credit(s)]Previous Course Code(s)CHEM 698DescriptionAn independent research project carried out under the supervision of a faculty member. This course is only available for exchange, visiting and visiting internship students.
- CHEM 6990MPhil Thesis ResearchPrevious Course Code(s)CHEM 699DescriptionMaster's thesis research supervised by a faculty member. A successful defense of the thesis leads to the grade Pass. No course credit is assigned.
- CHEM 7990Doctoral Thesis ResearchPrevious Course Code(s)CHEM 799DescriptionOriginal and independent doctoral thesis research. A successful defense of the thesis leads to the grade Pass. No course credit is assigned.