Coordination Chemistry - course unit details - BSc Chemistry with Medicinal Chemistry - full details (2025 entry)

Duration: 3 years
Year of entry: 2025
UCAS course code: F150 / Institution code: M20

Key features:
Scholarships available
Accredited course

Typical A-level offer: AAA including specific subjects
Typical contextual A-level offer: AAB including specific subjects
Refugee/care-experienced offer: ABB including specific subjects
Typical International Baccalaureate offer: 36 points overall with 6,6,6 at HL, including specific requirements

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Fees and funding

Fees

Tuition fees for home students commencing their studies in September 2025 will be £9,535 per annum (subject to Parliamentary approval). Tuition fees for international students will be £36,000 per annum. For general information please see the undergraduate finance pages.

Policy on additional costs

All students should normally be able to complete their programme of study without incurring additional study costs over and above the tuition fee for that programme. Any unavoidable additional compulsory costs totalling more than 1% of the annual home undergraduate fee per annum, regardless of whether the programme in question is undergraduate or postgraduate taught, will be made clear to you at the point of application. Further information can be found in the University's Policy on additional costs incurred by students on undergraduate and postgraduate taught programmes (PDF document, 91KB).

Scholarships/sponsorships

The University of Manchester is committed to attracting and supporting the very best students. We have a focus on nurturing talent and ability and we want to make sure that you have the opportunity to study here, regardless of your financial circumstances. For information about scholarships/bursaries/sponsorship please see our undergraduate fees pages and visit the Department website .

Course unit details:
Coordination Chemistry

Course unit fact file
Unit code	CHEM10312
Credit rating	10
Unit level	Level 1
Teaching period(s)	Semester 2
Available as a free choice unit?	No

Overview

d-block elements in the context of the Periodic Table: periodicity, recap of quantum numbers etc, definition of d-block, general use and occurrence.
Basics of coordination complexes: oxidation states, dⁿ configuration, complex formulae, nomenclature, coordination number and geometry, ligand types and coordination modes, chelate effect, HSAB theory, stability, isomerism.
Structure and bonding in coordination complexes: crystal field theory, spectrochemical series, high-spin/low-spin, crystal-field stabilisation energy, Jahn-Teller effect, 3d vs. 4d/5d comparisons, molecular orbital theory, π-donors and acceptors, metal-metal bonds.
Reactivity of coordination complexes: Irving-Williams series, hydration, hydrolysis, oxidation states in aqueous solution, substitution reactions, trans-influence and effect, redox properties.
Electronic structure of coordination complexes: optical spectroscopy, types of electronic transitions, selection rules, free-ion and octahedral/tetrahedral symmetry term symbols, correlation diagrams, magnetic properties.

Pre/co-requisites

Unit title	Unit code	Requirement type	Description
Introductory Chemistry	CHEM10101	Pre-Requisite	Compulsory
	CHEM10520	Pre-Requisite	Compulsory

Aims

The unit aims to give the students:

(i) an understanding of the basis of coordination chemistry of the 3d, 4d and 5d series of transition metals,

(ii) an ability to interpret and predict chemical structures and reactivity of coordination complexes,

(iii) an ability to interpret and predict electronic properties of coordination complexes.

Learning outcomes

On successful completion of the course students should be able:

to explain the distinctive features of d-block in relation to the rest of the Periodic Table;
to assign metal oxidation state and dn configuration from the formula of a co-ordination compound;
to translate the formula of a co-ordination compound into a geometric structure;
to describe bonding in co-ordination complexes via both crystal field and MO theories;
to describe and to explain solution phase reactivity of co-ordination complexes;
to rationalise stable and unstable dn configurations and geometries for metal ions in different oxidation states;
to describe the differences in behaviour of 3d, and 4d,5d metal ions;
to derive term symbols for dn free-ions and octahedral and tetrahedral geometries;
to interpret and to assign electronic absorption spectra and magnetic measurements of co-ordination complexes;
to interpret redox properties of transition metal compounds.

Teaching and learning methods

Reading, on-line material, reading and problem sessions.

Transferable skills and personal qualities

Data acquisition, processing

Application of concepts to rationalise and organise facts

Solving problems by application of concepts to unseen contents.

Assessment methods

Method	Weight
Written exam	100%

Feedback methods

Tutors will read material and provide feedback in three tutorials;

PASS sessions through the semester;

Workshops/synchronous sessions (held in lecture slots) will give the students the opportunity to work through examples and receive in-class feedback;

Weekly office hours with lecturers if possible, by email if not;

Study hours

Scheduled activity hours
Assessment written exam	2
Lectures	20
Practical classes & workshops	3
Tutorials	3

Independent study hours
Independent study	72

Teaching staff

Staff member	Role
Eric McInnes	Unit coordinator
Richard Winpenny	Unit coordinator

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BSc Chemistry with Medicinal Chemistry