CHEMISTRY AND TECHNOLOGY OF MODERN MATERIALS - 2017/8
Module code: CHE2028
VARCOE J Prof (Chemistry)
Number of Credits
FHEQ Level 5
Module cap (Maximum number of students)
Overall student workload
Independent Study Hours: 115
Lecture Hours: 33
Tutorial Hours: 2
|Assessment type||Unit of assessment||Weighting|
|Examination||EXAM - 1.5 HRS||70|
|School-timetabled exam/test||COURSEWORK MULTIPLE CHOICE TEST (50 MINS)||30|
Prerequisites / Co-requisites
The purpose of this module is to provide the fundamental concepts related to materials chemistry: i.e. involving extended inorganic and organic structures (solid state chemistry and polymer chemistry, respectively). This includes an introduction to characterisation techniques that are more specific to materials chemistry (e.g. powder x-ray diffraction and mechanical testing).
To provide an introduction to polymer chemistry and solid state inorganic chemistry
To extend knowledge of basic organic and inorganic chemistry (reactions, mechanism, characterisation and basic structures) to include macromolecules and extended inorganic structures
To highlight the influence of chemistry on the structures and properties of organic and inorganic materials.
|Understand the fundamental concepts related to both inorganic and organic materials;||K|
|Interpret characterisation and structural data of materials and apply this knowledge to the prediction of relevant properties and applications||C|
|Demonstrate understanding of the various fundamental mechanisms of polymer formation||K|
|Distinguish between the different synthetic routes used for the formation of inorganic materials and polymers and plan simple syntheses with the most appropriate methodology||KC|
|Apply the basic principles of powder X–ray diffraction to calculate unit cell parameters of orthogonal inorganic crystal systems and identify the lattice types of cubic inorganic crystal systems using systematic absence rules.||KC|
C - Cognitive/analytical
K - Subject knowledge
T - Transferable skills
P - Professional/Practical skills
Indicative content includes:
Solid-State Chemistry (Inorganic Materials)
Basic structures of ionic solids including important tertiary inorganic solids.
Defect chemistry of crystals including a practice session on Kröger–Vink equations.
Select properties and applications: Ion migration in solid electrolytes, solid state catalysis, Band Theory and the electronic properties of metals, semiconductors, insulators, and superconductors.
Synthesis routes to inorganic solids. Electrode materials for lithium batteries.
Basic X–ray Diffraction (XRD): Unit Cells, Systematic Absences, Bragg’s Law, Miller Indices. Powder XRD and the use of peak positions to solving the structures of simple orthogonal crystal systems (with Practice problems).
An outline of other important characterisation techniques, including Neutron diffraction.
An introduction to magnetism including categories of magnetic properties (paramagnetism, diamagnetism, antiferro-, ferro- and ferri-magnetism). Variation in the Interaction of permanent magnetic dipoles and the Curie Law and Curie-Weiss Law. Characterisation by variable temperature magnetization measurements. Magnetic hysteresis, hard and soft magnets. Examples will be given throughout from solid state chemistry and molecular materials.
Polymer Chemistry (Organic Materials)
Introduction to polymers and polymer nomenclature, history of polymer science.
Polymers in solution – determination of molecular weight distribution.
Solid state polymer structure and properties (amorphous, semi-crystalline, crystalline), , , and .
Step-growth polymerisation (polyesters, polyamides, isocyanates).
Chain growth polymerisation (polyolefins).
Ionic polymerisation (chain growth and ring opening polymerisation).
Polymers of industrial and commercial importance: Elastomers and thermosets. Thermoplastics and fibres.
Methods of Teaching / Learning
The learning and teaching strategy is designed to develop on the fundamental knowledge delivered at Level-4 and Level-5 (e.g. transition metal chemistry, organic reaction mechanisms, physical properties, industrial chemistry) and applies this knowledge to extended structures. The delivery is mainly lecture-based with practice problems given out at key points for formative assessment. The solid-state chemistry content will be delivered first followed by the polymer chemistry content.
The learning and teaching methods include:
3 h of lectures per week for 11 weeks;
2 h of revision class in revision week covering some practice problems
The assessment strategy is designed to provide students with the opportunity to demonstrate new knowledge related to materials chemistry that involves the chemistry, synthesis, characterisation, and application of extended chemical structures. The assessment will involve the application of some of this knowledge to unknown examples. There is more content related to the solid-state chemistry (inorganic) content, as the polymer component is extended upon in the final year at both FHEQ Level 6 and 7 (modules CHE3052 and CHEM031): therefore, the MCQ test will cover only the solid-state chemistry material to align the amount of delivered content to the proportion of the module assessment (solid state chemistry is around 65% of both the delivered content and assessment). The in-class MCQ test will take place just after the solid-state chemistry lectures have taken place.
Thus, the summative assessment for this module consists of:
Exam: 70%, 1.5 h (addresses learning outcomes 1, 2, 3, 4, 5).
In-class MCQ test: 30%, 50 min (addresses learning outcomes 1, 4, 5).
Practice problem sheets will be given out at regular intervals and parts of the course will be revisited where requried (i.e. if the practice problems reveal areas of lower student understanding).
The students are given an indication of the MCQ results within 1 working week of the test. The following lecture session will then recover the aspects where weaker understanding is evident from the MCQ test results. Model answers to the practice problem sheets will be provided at the end of the course.
Reading list for CHEMISTRY AND TECHNOLOGY OF MODERN MATERIALS : http://aspire.surrey.ac.uk/modules/che2028
Programmes this module appears in
|Chemistry BSc (Hons)||2||Optional||A weighted aggregate mark of 40% is required to pass the module|
|Chemistry with Forensic Investigation BSc (Hons)||2||Optional||A weighted aggregate mark of 40% is required to pass the module|
|Chemistry with Forensic Investigation MChem||2||Optional||A weighted aggregate mark of 40% is required to pass the module|
|Chemistry MChem||2||Optional||A weighted aggregate mark of 40% is required to pass the module|
Please note that the information detailed within this record is accurate at the time of publishing and may be subject to change. This record contains information for the most up to date version of the programme / module for the 2017/8 academic year.