NES3404 : Physical and Computational Chemistry - Undergraduate Study

Offered for Year: 2024/25

Module Leader(s): Dr Ben Horrocks
Lecturer: Dr Fabio Cucinotta, Dr Ioan-Bogdan Magdau

Owning School: Natural and Environmental Sciences
Teaching Location: Newcastle City Campus

Semesters

Your programme is made up of credits, the total differs on programme to programme.

Semester 1 Credit Value:	10
Semester 2 Credit Value:	10
ECTS Credits:	10.0
European Credit Transfer System

Aims

To explain the energetics and dynamics of chemical reactions in terms of detailed molecular behaviour; to provide an understanding of chemical nanoscience, and to review selected advanced experimental techniques. To develop and apply skills in molecular modelling.

Examples of modern applications of these principles to energy conversion and storage, chemical sensing and electronics will be discussed.

Outline Of Syllabus

Energetics and Dynamics

Excited states in chemistry
Molecular dynamics in energy conversion
Radiative and non-radiative phenomena
Energy transfer
Photochemical vs. thermal reactions

Molecular Modelling

Introduction to molecular modelling;
Quantum concepts and basis functions;
Theory and applications of ab initio quantum chemistry
Theory and applications of molecular mechanics

Chemical Nanoscience

Introduction to Chemical Nanoscience
Electronic structure of solids – tight binding and nearly-free electrons
Nanoparticles and Quantum dots – properties and synthesis
Applications of nanoparticles
Conductance in solids
Nanowires – properties and synthesis
Electron and probe microscopy

Teaching Methods

Teaching Activities

Category	Activity	Number	Length	Student Hours	Comment
Guided Independent Study	Assessment preparation and completion	1	1:00	1:00	Examination on molecular modelling component
Guided Independent Study	Assessment preparation and completion	4	1:00	4:00	Completing dry lab reports
Scheduled Learning And Teaching Activities	Lecture	36	1:00	36:00	Lectures in-person by default
Guided Independent Study	Assessment preparation and completion	1	1:30	1:30	Module Examination - Semester 2
Guided Independent Study	Assessment preparation and completion	18	1:00	18:00	Revision for summative examination
Scheduled Learning And Teaching Activities	Practical	4	2:00	8:00	4x2h Dry labs take place over 3 weeks
Scheduled Learning And Teaching Activities	Small group teaching	18	1:00	18:00	Seminars on problem solving (PiP)
Guided Independent Study	Independent study	1	95:30	95:30	Background reading and practice past paper examination questions
Guided Independent Study	Independent study	18	1:00	18:00	Revision for end of module examination
Total	200:00

Teaching Rationale And Relationship

Students acquire knowledge and understanding through lectures, drylabs and seminars (timetabled in lecture slots). They learn to plan and organise their work by way of seminars while the lectures provide the necessary opportunity to practice note-taking.

Assessment Methods

The format of resits will be determined by the Board of Examiners

Exams

Description	Length	Semester	When Set	Percentage	Comment
Written Examination	90	2	A	65	End of module examination
Written Examination	60	1	A	25	Examination on molecular modelling

Other Assessment

Description	Semester	When Set	Percentage	Comment
Report	1	M	10	Dry lab reports.

Assessment Rationale And Relationship

The summative written examinations will assess the level of knowledge and understanding of all aspects of the module. The examinations will present students with questions from a selection of topics learnt throughout semester 1 and 2 module content. The molecular modelling will be assessed by an examination for the theory and dry lab reports to test the ability to use molecular modelling software.

Reading Lists

NES3404's Reading List

Timetable

Timetable Website: www.ncl.ac.uk/timetable/
NES3404's Timetable

Module