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DEGREE REGULATIONS & PROGRAMMES OF STUDY 2010/2011
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DRPS : Course Catalogue : School of Chemistry : Chemistry

Undergraduate Course: Concepts and Methods in Materials Chemistry Level 11 (CHEM11036)

Course Outline
School	School of Chemistry	College	College of Science and Engineering
Course type	Standard	Availability	Not available to visiting students
Credit level (Normal year taken)	SCQF Level 11 (Year 4 Undergraduate)	Credits	20
Home subject area	Chemistry	Other subject area	None
Course website	None	Taught in Gaelic?	No
Course description	A lecture course covering the theory and application of modern advanced instrumentatal techniques in materials chemistry together with instruction in certain advanced aspects of inorganic chemistry. The course comprises individual lectures courses on: Sensors, Microscopy and Imaging, the Synthesis of Inorganic Compounds, Supramolecular Chemistry, Lanthanides and Actinides. Emphasis is placed upon advanced applications of inorganic compounds in areas as diverse as catalysis, novel materials, biological systems and medicine. 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 subject to the requirements of their particular programme and the exclusions noted above.

Entry Requirements
Pre-requisites	Students MUST have passed: Chemistry 3A (CHEM09005) AND Chemistry 3B (CHEM09006) AND Chemistry 3P Practical and Transferable Skills (CHEM09007)	Co-requisites
Prohibited Combinations	Students MUST NOT also be taking Physical Chemistry in Action Level 10 (CHEM10020) OR Physical Chemistry in Action Level 11 (CHEM11022) OR Techniques and Concepts in Inorganic Chemistry Level 10 (CHEM10025) OR Techniques and Concepts in Inorganic Chemistry Level 11 (CHEM11027) OR Concepts and Methods in Materials Chemistry Level 10 (CHEM10040)	Other requirements	Must include a weighted average of Grade C or higher in all Chemistry 3 courses AND a weighted average of Grade D or higher in Chemistry 3A and Chemistry 3B, at the first attempt and Mathematics qualifications of at least 20 credits to level Applicable Mathematics 1 and Mathematical Methods 1; or with the permission of Head of School.
Additional Costs	None

Course Delivery Information

Delivery period: 2010/11 Semester 2, Not available to visiting students (SS1)						WebCT enabled: No		Quota: None
Location	Activity	Description	Weeks	Monday	Tuesday	Wednesday	Thursday	Friday
King's Buildings	Lecture		1-11	14:00 - 14:50
King's Buildings	Lecture		1-11					09:00 - 09:50
King's Buildings	Lecture		1-11				14:00 - 14:50
King's Buildings	Lecture		1-11					14:00 - 14:50
King's Buildings	Lecture		1-11		09:00 - 09:50
King's Buildings	Lecture		1-11			09:00 - 09:50
First Class	Week 1, Tuesday, 09:00 - 09:50, Zone: King's Buildings. Lecture Theatre 100, Joseph Black Building
Additional information	30 hours lectures + 6 hours tutorials, at times arranged. Classes at 9.00 a.m on Tue, Wed and Fri are S2 Week 1 - 5 Classes at 2.00 p.m. on Mon, Thur and Fri are S2 Week 6 - 10
Exam Information
Exam Diet	Paper Name		Hours:Minutes	Stationery Requirements		Comments
Main Exam Diet S2 (April/May)			1:30	2 x 8 sides / graph		c/w U01236
Main Exam Diet S2 (April/May)			1:30	2 x 8 sides / graph		c/w U01249

Summary of Intended Learning Outcomes
At the end of this course students will be able to: - describe the essential elements of chemical sensors and rationalise the importance of factors such as sensitivity, selectivity, dynamic range, reproducibility, operating environment and cost - illustrate examples of the chemical synthesis of specific molecular recognition systems and natural biosensor systems - understand the physical principles of optical, electron and scanning probe microscopies, including confocal microscopy, scanning near field optical microscopy, electron microscopy, scanning tunnelling microscopy and atomic force microscopy - illustrate example applications of fluorescence microscopy and imaging and in-situ microscopy studies of surface chemistry and catalysis - explain the principles that underpin selected inorganic synthetic processes - devise synthetic routes to target inorganic and organometallic compounds - use the literature to identify preparative routes for specific compounds - appreciate the difficulties and importance of supramolecular chemistry, inspired by biology and with implications in all traditional disciplines of chemistry - rationalise the chemistry of the 4f- and 5f-elements - appreciate the chemistry used in nuclear power generation involving radioactive actinide elements - explain why complexes of gadolinium(III) are used as contrast agents in magnetic resonance imaging -outline the chemistry used in nuclear power generation involving radioactive actinide elements - 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
Two degree exams of 1 hour 30 minutes.

Special Arrangements
None

Additional Information
Academic description	Not entered
Syllabus	Not entered
Transferable skills	Not entered
Reading list	Not entered
Study Abroad	Not entered
Study Pattern	Not entered
Keywords	Not entered

Contacts
Course organiser	Prof John Attfield Tel: (0131 6)51 7229 Email: J.P.Attfield@ed.ac.uk	Course secretary	Ms Rosie Filipiak Tel: (0131 6)50 3843 Email: r.filipiak@ed.ac.uk

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copyright 2011 The University of Edinburgh - 13 January 2011 5:43 am