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THE UNIVERSITY of EDINBURGHDEGREE REGULATIONS & PROGRAMMES OF STUDY 2008/2009
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Chemistry of Functional Materials Level 11 (U04217)? Credit Points : 20 ? SCQF Level : 11 ? Acronym : CHE-4-ChemFM11 A lecture course covering the design, synthesis, properties and applications of a wide range of functional materials. Particular emphasis is given to electronic materials (conductors, semiconductors and superconductors), magnetic materials, meso- and microporous solids and polymers. The course comprises individual lecture courses on: The Electronic Properties of Solids, Magnetic Materials, Microporous and Mesoporous Materials and Organic Polymer Chemistry. Either the Level 10 or Level 11 version of this course (as specified in the degree programme tables) is a compulsory requirement for Year 4/5 students on degrees in Chemistry with Materials Chemistry, but can be taken by Year 4/5 students on any Chemistry degree programme. Entry Requirements? This course is not available to visting students. ? Pre-requisites : Chemistry 3A (CHE-3-A) and Chemistry 3B (CHE-3-B) and Chemistry 3P Practical and Transferable Skills (CHE-3-Pract)at a weighted average at or above Grade C at the first attempt, including Chemistry 3A (CHE-3-A) and Chemistry 3B (CHE-3-B) at a weighted average at or above Grade D, and Mathematics qualifications of at least 20 credits to level Applicable Mathematics 1 and Mathematical Methods 1. Or CP Symmetry and Structure & CP Kinetics and Catalysis & CP Molecules and Matter & Electromagnetism and Optics & Physical Mathematics & Quantum Mechanics & Statistical Mechanics at a weighted average at or above Grade D, & CP Practical & Transferable Skills, & Electronic Methods in the Physical Laboratory , & Computational Methods , & Applicable Mathematics 3 , and Mathematical Methods 3 , & Foundations of Mathematical Physics 2. Or with permission of Head of School ? Prohibited combinations : Chemistry of Functional Materials Level 10 (CHE-4-ChemFM10). Subject AreasHome subject areaDelivery Information? Normal year taken : 4th year ? Delivery Period : Semester 1 (Blocks 1-2) ? Contact Teaching Time : 3 hour(s) per week for 10 weeks First Class Information
All of the following classes
? Additional Class Information : 30 hours lectures + 6 hours tutorials, at times arranged. Summary of Intended Learning Outcomes
At the end of this course students will be able to:
- use band theory in the form of the free electron model and the tight-binding approximation to describe the electronic structure of solids - rationalise the electrical conductivity and some of the optoelectronic properties of insulators, semiconductors and metals using band theory - describe and rationalise the properties of superconductors - calculate the magnetic moment of lanthanide and orbitally quenched transition metal ions from their electronic configuration - interpret magnetic susceptibility data for paramagnets, antiferromagnets and ferromagnets and determine the sign and strength of exchange interactions from such data - outline strategies to design and synthesise ceramic and molecular materials with particular electronic and magnetic functionality - describe the structure, properties, synthesis and characterisation of microporous and mesoporous materials - outline the applications of microporous and mesoporous materials - understand and discuss the main polymer forming processes, and the mechanisms of the reactions involved - appreciate the chemistry of key examples of commercially important polymers Learning outcomes specific to attainment of a pass at Level 11 include: - ability to integrate all, or most, of the main areas of the course - development of original and creative responses to problems and issues within the course - application of critical analysis, evaluation and synthesis to issues at the forefront of the subject area Assessment Information
One degree exam of 3 hours.
Exam times
Contact and Further InformationThe Course Secretary should be the first point of contact for all enquiries. Course Secretary Miss Karen Harris Course Organiser Prof John Attfield School Website : http://www.chem.ed.ac.uk/ College Website : http://www.scieng.ed.ac.uk/ |
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