Search Course Outline
Showing 25 course outlines from 3705 matches
426
CHEM 340
: Advanced Analytical Chemistry2023 Semester Two (1235)
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
427
CHEM 340
: Advanced Analytical Chemistry2022 Semester Two (1225)
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
428
CHEM 340
: Advanced Analytical Chemistry2020 Semester Two (1205)
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
429
CHEM 350
: Topics in Chemistry2020 Semester One (1203)
Topics in modern chemistry. Students will select three of the modules offered, details of which are available in the School of Chemical Sciences Undergraduate Handbook.
Prerequisite: 30 points at Stage II in Chemistry
To complete this course students must enrol in CHEM 350 A and B, or CHEM 350
430
CHEM 351
: Chemicals Big and Small: Nano-material to Bio-macromolecules2024 Semester One (1243)
Chemical materials are found with a broad range of shapes, sizes and physical properties. Students will study the synthesis of chemical materials; including polymeric materials using radical chemistry, inorganic materials and proteins and peptides using synthetic and biological chemical approaches. Methods to characterise materials will be investigated, including a range of physical and computational techniques giving insight into molecular interactions.
Prerequisite: 30 points from CHEM 251, 252, 253
Restriction: CHEM 350
Restriction: CHEM 350
431
CHEM 351
: Chemicals Big and Small: Nano-material to Bio-macromolecules2023 Semester One (1233)
Chemical materials are found with a broad range of shapes, sizes and physical properties. Students will study the synthesis of chemical materials; including polymeric materials using radical chemistry, inorganic materials and proteins and peptides using synthetic and biological chemical approaches. Methods to characterise materials will be investigated, including a range of physical and computational techniques giving insight into molecular interactions.
Prerequisite: 30 points from CHEM 251, 252, 253
Restriction: CHEM 350
Restriction: CHEM 350
432
CHEM 351
: Chemicals Big and Small: Nano-material to Bio-macromolecules2022 Semester One (1223)
Chemical materials are found with a broad range of shapes, sizes and physical properties. Students will study the synthesis of chemical materials; including polymeric materials using radical chemistry, inorganic materials and proteins and peptides using synthetic and biological chemical approaches. Methods to characterise materials will be investigated, including a range of physical and computational techniques giving insight into molecular interactions.
Prerequisite: 30 points from CHEM 251, 252, 253
Restriction: CHEM 350
Restriction: CHEM 350
433
CHEM 351
: Chemicals Big and Small: Nano-material to Bio-macromolecules2021 Semester One (1213)
Chemical materials are found with a broad range of shapes, sizes and physical properties. Students will study the synthesis of chemical materials; including polymeric materials using radical chemistry, inorganic materials and proteins and peptides using synthetic and biological chemical approaches. Methods to characterise materials will be investigated, including a range of physical and computational techniques giving insight into molecular interactions.
Prerequisite: 30 points from CHEM 251, 252, 253
Restriction: CHEM 350
Restriction: CHEM 350
434
CHEM 360
: Contemporary Green Chemistry2024 Semester Two (1245)
Covers topics central to contemporary Green Chemistry such as sustainable syntheses, energy production, catalysis, pollution control, and basic toxicology. The integral laboratory course provides valuable practical experience in relevant areas of the chemical sciences.
Prerequisite: CHEM 260
435
CHEM 360
: Contemporary Green Chemistry2023 Semester One (1233)
Covers topics central to contemporary Green Chemistry such as sustainable syntheses, energy production, catalysis, pollution control, and basic toxicology. The integral laboratory course provides valuable practical experience in relevant areas of the chemical sciences.
Prerequisite: CHEM 260
436
CHEM 360
: Contemporary Green Chemistry2022 Semester One (1223)
Covers topics central to contemporary Green Chemistry such as sustainable syntheses, energy production, catalysis, pollution control, and basic toxicology. The integral laboratory course provides valuable practical experience in relevant areas of the chemical sciences.
Prerequisite: CHEM 260
437
CHEM 360
: Contemporary Green Chemistry2021 Semester One (1213)
Covers topics central to contemporary Green Chemistry such as sustainable syntheses, energy production, catalysis, pollution control, and basic toxicology. The integral laboratory course provides valuable practical experience in relevant areas of the chemical sciences.
Prerequisite: CHEM 260
438
CHEM 360
: Contemporary Green Chemistry2020 Semester One (1203)
Covers topics central to contemporary Green Chemistry such as sustainable syntheses, energy production, catalysis, pollution control, and basic toxicology. The integral laboratory course provides valuable practical experience in relevant areas of the chemical sciences.
Prerequisite: CHEM 260
439
CHEM 380
: Materials Chemistry2024 Semester One (1243)
Synthesis, properties characterisation and applications of advanced materials. Includes a review of current trends in materials research. Important aspects of solid inorganic materials and organic polymers are covered.
Prerequisite: 15 points from CHEM 210, 220, 251, CHEMMAT 121
440
CHEM 380
: Materials Chemistry2023 Semester One (1233)
Synthesis, properties characterisation and applications of advanced materials. Includes a review of current trends in materials research. Important aspects of solid inorganic materials and organic polymers are covered.
Prerequisite: 15 points from CHEM 210, 220, 251, CHEMMAT 121
441
CHEM 380
: Materials Chemistry2022 Semester One (1223)
Synthesis, properties characterisation and applications of advanced materials. Includes a review of current trends in materials research. Important aspects of solid inorganic materials and organic polymers are covered.
Prerequisite: 15 points from CHEM 210, 220, 251, CHEMMAT 121
442
CHEM 380
: Materials Chemistry2021 Semester Two (1215)
Synthesis, properties characterisation and applications of advanced materials. Includes a review of current trends in materials research. Important aspects of solid inorganic materials and organic polymers are covered.
Prerequisite: 15 points from CHEM 210, 220, 251, CHEMMAT 121
443
CHEM 390
: Medicinal Chemistry2024 Semester One (1243)
Nature of cellular targets for drug action – lipids, proteins, enzymes, DNA. Principles of molecular recognition. Enzymes and receptors as targets for drug action. DNA as a target for drug action. An overview of approaches to drug discovery and development. Structure-activity relationships, stereochemistry and drug action, prodrugs, drug solubilisation and delivery, drug metabolism and antibiotic resistance. Laboratories focus on the synthesis, computer modelling and biological testing of drugs.
Prerequisite: CHEM 110 and a minimum of 165 points passed
444
CHEM 390
: Medicinal Chemistry2023 Semester One (1233)
Nature of cellular targets for drug action – lipids, proteins, enzymes, DNA. Principles of molecular recognition. Enzymes and receptors as targets for drug action. DNA as a target for drug action. An overview of approaches to drug discovery and development. Structure-activity relationships, stereochemistry and drug action, prodrugs, drug solubilisation and delivery, drug metabolism and antibiotic resistance. Laboratories focus on the synthesis, computer modelling and biological testing of drugs.
Prerequisite: CHEM 110 and a minimum of 165 points passed
445
CHEM 390
: Medicinal Chemistry2022 Semester One (1223)
Nature of cellular targets for drug action – lipids, proteins, enzymes, DNA. Principles of molecular recognition. Enzymes and receptors as targets for drug action. DNA as a target for drug action. An overview of approaches to drug discovery and development. Structure-activity relationships, stereochemistry and drug action, prodrugs, drug solubilisation and delivery, drug metabolism and antibiotic resistance. Laboratories focus on the synthesis, computer modelling and biological testing of drugs.
Prerequisite: CHEM 110 and a minimum of 165 points passed
446
CHEM 390
: Medicinal Chemistry2021 Semester One (1213)
Nature of cellular targets for drug action – lipids, proteins, enzymes, DNA. Principles of molecular recognition. Enzymes and receptors as targets for drug action. DNA as a target for drug action. An overview of approaches to drug discovery and development. Structure-activity relationships, stereochemistry and drug action, prodrugs, drug solubilisation and delivery, drug metabolism and antibiotic resistance. Laboratories focus on the synthesis, computer modelling and biological testing of drugs.
Prerequisite: CHEM 110 and a minimum of 165 points passed
447
CHEM 390
: Medicinal Chemistry2020 Semester One (1203)
Nature of cellular targets for drug action – lipids, proteins, enzymes, DNA. Principles of molecular recognition. Enzymes and receptors as targets for drug action. DNA as a target for drug action. An overview of approaches to drug discovery and development. Structure-activity relationships, stereochemistry and drug action, prodrugs, drug solubilisation and delivery, drug metabolism and antibiotic resistance. Laboratories focus on the synthesis, computer modelling and biological testing of drugs.
Prerequisite: CHEM 110 and a minimum of 165 points passed
448
CHEM 392
: Issues in Drug Design and Development2024 Semester Two (1245)
Intellectual property and patent law in the pharmaceutical industry. An overview of the legal and regulatory framework for drug design and development. Clinical trials: formulation of a drug; phase I, phase II and phase III protocols. An introduction to the principles involved in the Codes of Good Manufacturing Practice and Good Laboratory Practice (quality control and quality assurance procedures) as applied to the manufacture of drug products and the quantification of drugs and metabolites in biological fluids. Examples of drug development. Case studies of selected drugs from design to release.
Prerequisite: CHEM 110 and a further 150 points passed
449
CHEM 392
: Issues in Drug Design and Development2023 Semester One (1233)
Intellectual property and patent law in the pharmaceutical industry. An overview of the legal and regulatory framework for drug design and development. Clinical trials: formulation of a drug; phase I, phase II and phase III protocols. An introduction to the principles involved in the Codes of Good Manufacturing Practice and Good Laboratory Practice (quality control and quality assurance procedures) as applied to the manufacture of drug products and the quantification of drugs and metabolites in biological fluids. Examples of drug development. Case studies of selected drugs from design to release.
Prerequisite: CHEM 110 and a further 150 points passed
450
CHEM 392
: Issues in Drug Design and Development2022 Semester One (1223)
Intellectual property and patent law in the pharmaceutical industry. An overview of the legal and regulatory framework for drug design and development. Clinical trials: formulation of a drug; phase I, phase II and phase III protocols. An introduction to the principles involved in the Codes of Good Manufacturing Practice and Good Laboratory Practice (quality control and quality assurance procedures) as applied to the manufacture of drug products and the quantification of drugs and metabolites in biological fluids. Examples of drug development. Case studies of selected drugs from design to release.
Prerequisite: CHEM 110 and a further 150 points passed
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149