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Showing 25 course outlines from 4531 matches
401
CHEM 252
: Properties and Analysis of Matter2020 Semester Two (1205)
Understanding the physico-chemical properties of matter is crucial for modern chemistry. Fundamental processes to the analysis and understanding of chemical systems, including thermodynamics, equilibria, acid and bases will be covered. Applications of modern electrochemistry, physical chemistry of modern materials and methods for assessing the reliability of results will be described while the laboratory course emphasises the obtaining and understanding of chemical measurements.
Prerequisite: CHEM 110, 120, and 15 points from MATHS 108, 110, 120, 130, 150, 153, PHYSICS 120, 160, STATS 101, 108
Restriction: CHEM 240
Restriction: CHEM 240
402
CHEM 253
: Making Molecules: Synthesis and Isolation2024 Semester Two (1245)
Creation of chemicals and compounds is at the heart of synthetic chemistry and is fundamental for the preparation of new materials and medicines. Students will learn organic, organometallic and inorganic synthesis with an emphasis on how and why reactions occur. Students will study separation strategies and characterisation techniques such as NMR spectroscopy to determine reaction outcomes. Provides experience in synthesising, purifying and characterising compounds.
Prerequisite: CHEM 110
Restriction: CHEM 230
Restriction: CHEM 230
403
CHEM 253
: Making Molecules: Synthesis and Isolation2023 Semester Two (1235)
Creation of chemicals and compounds is at the heart of synthetic chemistry and is fundamental for the preparation of new materials and medicines. Students will learn organic, organometallic and inorganic synthesis with an emphasis on how and why reactions occur. Students will study separation strategies and characterisation techniques such as NMR spectroscopy to determine reaction outcomes. Provides experience in synthesising, purifying and characterising compounds.
Prerequisite: CHEM 110
Restriction: CHEM 230
Restriction: CHEM 230
404
CHEM 253
: Making Molecules: Synthesis and Isolation2022 Semester Two (1225)
Creation of chemicals and compounds is at the heart of synthetic chemistry and is fundamental for the preparation of new materials and medicines. Students will learn organic, organometallic and inorganic synthesis with an emphasis on how and why reactions occur. Students will study separation strategies and characterisation techniques such as NMR spectroscopy to determine reaction outcomes. Provides experience in synthesising, purifying and characterising compounds.
Prerequisite: CHEM 110
Restriction: CHEM 230
Restriction: CHEM 230
405
CHEM 253
: Making Molecules: Synthesis and Isolation2021 Semester Two (1215)
Creation of chemicals and compounds is at the heart of synthetic chemistry; students will learn organic, organometallic and inorganic synthesis with an emphasis on how and why reactions occur. Studying separation strategies, reaction conditions and characterisation techniques will allow an understanding of the variables in synthesis. The laboratory component provides experience in synthesising, isolating, purifying and characterising compounds. This course will build on prior knowledge of chemical bonding, MO theory, and main-group and transition metal chemistry.
Prerequisite: CHEM 110
Restriction: CHEM 230
Restriction: CHEM 230
406
CHEM 253
: Making Molecules: Synthesis and Isolation2020 Semester Two (1205)
Creation of chemicals and compounds is at the heart of synthetic chemistry; students will learn organic, organometallic and inorganic synthesis with an emphasis on how and why reactions occur. Studying separation strategies, reaction conditions and characterisation techniques will allow an understanding of the variables in synthesis. The laboratory component provides experience in synthesising, isolating, purifying and characterising compounds. This course will build on prior knowledge of chemical bonding, MO theory, and main-group and transition metal chemistry.
Prerequisite: CHEM 110
Restriction: CHEM 230
Restriction: CHEM 230
407
CHEM 254A
: Modelling Chemical Processes2022 Semester One (1223)
From quantum mechanics to enzyme active sites, statistical analysis to the greenhouse effect, models are essential to our understanding of chemical phenomena. But what makes a good model? How are they developed and tested? After exploring the concept of models and their relationship to the scientific method, students will investigate several currently accepted models used in the chemical sciences.
Prerequisite: CHEM 110, 120 and 15 points from MATHS 108, 110, 130, 150, PHYSICS 120
To complete this course students must enrol in CHEM 254 A and B, or CHEM 254
408
CHEM 260
: Introduction to Green Chemistry2023 Semester Two (1235)
Introduction to the concepts and principles of Green Chemistry. Selected real world applications of Green Chemistry are presented to illustrate how these important guiding principles can be applied. The integral laboratory course provides valuable practical experience in relevant areas of the chemical sciences.
Prerequisite: Either CHEM 110 and 120, or at least B- in CHEM 110 or 120
409
CHEM 260
: Introduction to Green Chemistry2022 Semester Two (1225)
Introduction to the concepts and principles of Green Chemistry. Selected real world applications of Green Chemistry are presented to illustrate how these important guiding principles can be applied. The integral laboratory course provides valuable practical experience in relevant areas of the chemical sciences.
Prerequisite: Either CHEM 110 and 120, or at least B- in CHEM 110 or 120
410
CHEM 260
: Introduction to Green Chemistry2021 Semester Two (1215)
Introduction to the concepts and principles of Green Chemistry. Selected real world applications of Green Chemistry are presented to illustrate how these important guiding principles can be applied. The integral laboratory course provides valuable practical experience in relevant areas of the chemical sciences.
Prerequisite: Either CHEM 110 and 120, or at least B- in CHEM 110 or 120
411
CHEM 260
: Introduction to Green Chemistry2020 Semester Two (1205)
Introduction to the concepts and principles of Green Chemistry. Selected real world applications of Green Chemistry are presented to illustrate how these important guiding principles can be applied. The integral laboratory course provides valuable practical experience in relevant areas of the chemical sciences.
Prerequisite: Either CHEM 110 and 120, or at least B- in CHEM 110 or 120
412
CHEM 310
: Structural Chemistry and Spectroscopy2024 Semester Two (1245)
Molecular structure is fundamental to the understanding of modern chemistry. Molecular spectroscopy provides an important method for probing the structure of molecules, and the following aspects of this subject will be presented: molecular energies and molecular spectra, molecular symmetry and spectroscopy, surface spectroscopy and the structure and chemistry of surfaces.
Prerequisite: 15 points from CHEM 210, 251
413
CHEM 310
: Structural Chemistry and Spectroscopy2023 Semester Two (1235)
Molecular structure is fundamental to the understanding of modern chemistry. Molecular spectroscopy provides an important method for probing the structure of molecules, and the following aspects of this subject will be presented: molecular energies and molecular spectra, molecular symmetry and spectroscopy, surface spectroscopy and the structure and chemistry of surfaces.
Prerequisite: 15 points from CHEM 210, 251
414
CHEM 310
: Structural Chemistry and Spectroscopy2022 Semester Two (1225)
Molecular structure is fundamental to the understanding of modern chemistry. Molecular spectroscopy provides an important method for probing the structure of molecules, and the following aspects of this subject will be presented: molecular energies and molecular spectra, molecular symmetry and spectroscopy, surface spectroscopy and the structure and chemistry of surfaces.
Prerequisite: 15 points from CHEM 210, 251
415
CHEM 310
: Structural Chemistry and Spectroscopy2021 Semester Two (1215)
Molecular structure is fundamental to the understanding of modern chemistry. Molecular spectroscopy provides an important method for probing the structure of molecules, and the following aspects of this subject will be presented: molecular energies and molecular spectra, molecular symmetry and spectroscopy, surface spectroscopy and the structure and chemistry of surfaces.
Prerequisite: 15 points from CHEM 210, 251
416
CHEM 320
: Design and Reactivity of Inorganic Compounds2024 Semester One (1243)
A selection of the most recent developments in contemporary inorganic chemistry will be covered. Topics include selected physical properties of coordination compounds such as multinuclear NMR spectroscopy, UV-vis spectroscopy, magnetism, redox chemistry and photochemistry, the organometallic chemistry and catalytic reactions of transition elements, bioinorganic and medicinal inorganic chemistry, the kinetics and thermodynamics of ligand substitution reactions, main-group organometallic chemistry and main-group polymers. The laboratories provide an important complementary experience in the synthesis and measurement of physical properties for selected inorganic compounds.
Prerequisite: CHEM 220 or 251
417
CHEM 320
: Design and Reactivity of Inorganic Compounds2023 Semester One (1233)
A selection of the most recent developments in contemporary inorganic chemistry will be covered. Topics include selected physical properties of coordination compounds such as multinuclear NMR spectroscopy, UV-vis spectroscopy, magnetism, redox chemistry and photochemistry, the organometallic chemistry and catalytic reactions of transition elements, bioinorganic and medicinal inorganic chemistry, the kinetics and thermodynamics of ligand substitution reactions, main-group organometallic chemistry and main-group polymers. The laboratories provide an important complementary experience in the synthesis and measurement of physical properties for selected inorganic compounds.
Prerequisite: 15 points from CHEM 220, 251, 253
418
CHEM 320
: Design and Reactivity of Inorganic Compounds2022 Semester One (1223)
A selection of the most recent developments in contemporary inorganic chemistry will be covered. Topics include selected physical properties of coordination compounds such as multinuclear NMR spectroscopy, UV-vis spectroscopy, magnetism, redox chemistry and photochemistry, the organometallic chemistry and catalytic reactions of transition elements, bioinorganic and medicinal inorganic chemistry, the kinetics and thermodynamics of ligand substitution reactions, main-group organometallic chemistry and main-group polymers. The laboratories provide an important complementary experience in the synthesis and measurement of physical properties for selected inorganic compounds.
Prerequisite: 15 points from CHEM 220, 251, 253
419
CHEM 320
: Design and Reactivity of Inorganic Compounds2020 Semester One (1203)
A selection of the most recent developments in contemporary inorganic chemistry will be covered. These will include ligand design and reactivity in coordination chemistry, macrocyclic chemistry, redox chemistry, photochemistry, construction of devices, organometallic chemistry, catalysis, and main group rings, chains, clusters and polymers. The laboratories provide complementary experience in synthesis and measurement of physical properties for selected inorganic compounds.
Prerequisite: CHEM 220 or 251
420
CHEM 330
: Contemporary Organic Chemistry2024 Semester Two (1245)
Topics in advanced organic chemistry, including the synthesis, reactions and uses of compounds containing phosphorus, selenium, boron and silicon. Organotransition metal chemistry. Asymmetric synthesis. Heterocyclic chemistry and pericyclic reactions. Laboratories emphasise synthetic and structural methods.
Prerequisite: 15 points from CHEM 230, 253
421
CHEM 330
: Contemporary Organic Chemistry2023 Semester Two (1235)
Topics in advanced organic chemistry, including the synthesis, reactions and uses of compounds containing phosphorus, selenium, boron and silicon. Organotransition metal chemistry. Asymmetric synthesis. Heterocyclic chemistry and pericyclic reactions. Laboratories emphasise synthetic and structural methods.
Prerequisite: 15 points from CHEM 230, 253
422
CHEM 330
: Contemporary Organic Chemistry2022 Semester Two (1225)
Topics in advanced organic chemistry, including the synthesis, reactions and uses of compounds containing phosphorus, selenium, boron and silicon. Organotransition metal chemistry. Asymmetric synthesis. Heterocyclic chemistry and pericyclic reactions. Laboratories emphasise synthetic and structural methods.
Prerequisite: 15 points from CHEM 230, 253
423
CHEM 330
: Contemporary Organic Chemistry2021 Semester Two (1215)
Topics in advanced organic chemistry, including the synthesis, reactions and uses of compounds containing phosphorus, selenium, boron and silicon. Organotransition metal chemistry. Asymmetric synthesis. Heterocyclic chemistry and pericyclic reactions. Laboratories emphasise synthetic and structural methods.
Prerequisite: 15 points from CHEM 230, 253
424
CHEM 330
: Contemporary Organic Chemistry2020 Semester Two (1205)
Topics in advanced organic chemistry, including the synthesis, reactions and uses of compounds containing phosphorus, selenium, boron and silicon. Organotransition metal chemistry. Asymmetric synthesis. Heterocyclic chemistry and pericyclic reactions. Laboratories emphasise synthetic and structural methods.
Prerequisite: 15 points from CHEM 230, 253
425
CHEM 340
: Advanced Analytical Chemistry2024 Semester Two (1245)
Principles and applications of modern instrumental analytical chemistry. Statistical methods, quality control and assurance, sampling, instrumentation, chromatographic and other separation methods, spectrophotometric methods, electro-analytical methods.
Prerequisite: 15 points from CHEM 240, 252
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