Unit information: Materials Chemistry: Materials for Energy in 2024/25

Unit name	Materials Chemistry: Materials for Energy
Unit code	CHEM20005
Credit points	20
Level of study	I/5
Teaching block(s)	Teaching Block 1 (weeks 1 - 12)
Unit director	Dr. Davis
Open unit status	Not open
Units you must take before you take this one (pre-requisite units)	1st year Building Blocks of Chemistry
Units you must take alongside this one (co-requisite units)	None
Units you may not take alongside this one	None
School/department	School of Chemistry
Faculty	Faculty of Science

Unit Information

Why is this unit important?

The aim is to equip chemistry students with the knowledge and skills necessary to tackle major societal challenges across the themes of Energy, Health and the Environment. The unit will provide students with an intermediate level understanding of key classes of functional materials and related technological applications. This unit will thematically focus on electronic and magnetic properties of materials incorporating aspects of design, synthesis and characterisation as appropriate.

How does this unit fit into your programme of study?

This unit is part of a series of optional units throughout levels 4 – 6 that cover functional materials with real-world applications. The course is designed so that the level 4 option is not a prerequisite for level 5 and similarly level 5 is not a pre-requisite for level 6.

Your learning on this unit

An overview of content

The aim of this unit is to introduce students to functional materials chemistry that will underpin future cutting-edge technological developments. The unit introduces key classes of materials and associated thematic application areas where developments in functional materials by chemists will make significant contributions. The unifying focus is on how composition, structure and crystallinity at the molecular scale and beyond links to the materials properties and explaining how and why these materials are used in real-world practical applications. The unit will comprise four courses with a particular emphasis given to materials for energy applications.

• Electronic Materials- Binary/ternary systems, imperfect crystals, band-theory
• Magnetic Materials- Paramagnets, antiferromagnets, ferromagnets and superconductivity.
• Polymeric Materials- polymer synthesis, semiconducting polymers, biopolymers and bioplastics
• Soft Matter- liquid crystals, amphiphiles, polymers in solution, colloids)

How will students, personally, be different as a result of the unit

Students will develop an intermediate level understanding of key classes of functional materials and related technological applications.

Learning Outcomes

By the end of the unit students will be able to:

• Develop a deeper understanding of the structure of key classes of functional materials and their inherent properties.
• Identify suitable materials and suggest appropriate design criteria, synthetic protocols or characterization techniques for a given technological application.
• Apply knowledge and skills to suggest how tailoring of the structure and composition of a material can be optimised to enhance activity in a specific application.

How you will learn

The unit will employ a blended learning approach involving a mixture of in person lecture, online resources, individual student-led enquiry and/or team-based student led enquiry. In this unit we will apply team teaching with no one academic delivering an entire course (minimum two).

How you will be assessed

Tasks which help you learn and prepare you for summative tasks:

The summative coursework will be supported by a formative activity to brief the students to ensure: they understand the aims, context, requirements, marking criteria, anticipated time to be spent on the assessment and that any resources required (eg computational) can be accessed. Each individual course will also be supported by a workshop staffed by two staff specialists in the topic. These formative activities will be scheduled a week or two following the final lecture. They will typically involve problem sheets allowing immediate feedback to ensure ILO1 is secure. More extended problem-solving questions will be used to test ILOs 2,3 and provide preparation for the final summative exam questions. Feedback on these questions can be provided in or post workshop depending on individual student progress.

Tasks which count towards your unit mark:

The unit will be assessed by a combination of coursework (35%) and an end-of-unit exam (65%).

The coursework will involve preparing a poster based on analysis of crystallographic data mined from the CCD (35%; all ILOs)

When assessment does not go to plan

The re-assessment task will match the original assessment.

Resources

If this unit has a Resource List, you will normally find a link to it in the Blackboard area for the unit. Sometimes there will be a separate link for each weekly topic.

If you are unable to access a list through Blackboard, you can also find it via the Resource Lists homepage. Search for the list by the unit name or code (e.g. CHEM20005).

How much time the unit requires
Each credit equates to 10 hours of total student input. For example a 20 credit unit will take you 200 hours of study to complete. Your total learning time is made up of contact time, directed learning tasks, independent learning and assessment activity.

See the University Workload statement relating to this unit for more information.

Assessment
The Board of Examiners will consider all cases where students have failed or not completed the assessments required for credit. The Board considers each student's outcomes across all the units which contribute to each year's programme of study. For appropriate assessments, if you have self-certificated your absence, you will normally be required to complete it the next time it runs (for assessments at the end of TB1 and TB2 this is usually in the next re-assessment period).
The Board of Examiners will take into account any exceptional circumstances and operates within the Regulations and Code of Practice for Taught Programmes.