Chemistry with a Year in Industry MSci

   
   
  

Fact file - 2018 entry

Qualification
Chemistry with a Year in Industry | MSci Hons
UCAS code
F105
Duration
4 years full-time (year 3 out)
A level offer
AAA-AAB

If you make The University of Nottingham your firm choice and do not meet the MSci grades in your offer but meet the BSc grades then you will automatically be offered a place for the BSc F100 degree.
Required subjects
chemistry A level at grade A; GCSE mathematics at grade 4 or above
IB score
36-34 (chemistry at grade 6 at Higher Level); GCSE maths and English at grade 4 or above 

If you make The University of Nottingham your firm choice and do not meet the MSci grades in your offer but meet the BSc grades then you will automatically be offered a place for the BSc F100 degree.
Course location
University Park Campus 
Course places
200 across all chemistry courses (except FF31 and FFH1)
School/department
 

Overview

This four-year course provides the broad, in-depth chemistry training of the MSci Chemistry course, with the added opportunity of an assessed year spent in a research laboratory of a major chemical company.
Read full overview

The course structure for years one and two is the same as for F101 MSci Chemistry. The strong and broad foundation in all areas of chemistry provided by the first two years provide an excellent base from which you can successfully experience research work in a prestigious industrial laboratory.

Transfer between the MSci Chemistry, BSc Chemistry, MSci Chemistry with an International Study Year or MSci Chemistry with a Year in Industry courses is possible up to the end of semester one in year two.

Year one 

Building on your pre-university studies, you will spend three quarters of your first year gaining core chemical knowledge and understanding. If you do not have A level mathematics (or equivalent) then you will take an additional in-house module to prepare you for this aspect of the chemistry course. Optional modules are available and account for the remainder of your study time.

Year two

In the second year, theoretical and practical modules further develop the knowledge and understanding gained in the first year. The core material accounts for approximately 100 credits of your study with a further 20 credits taken as optional modules.

You will apply to potential companies for your year three placement and you will be supported in this process by the University. Progression onto year three of the MSci Chemistry with a Year in Industry degree will depend on securing a placement and a good level of performance in years one and two.

Year three 

Progression onto the assessed third year gives you an opportunity to work on a 90-credit research project in a research laboratory of a major chemical company where you will be a salaried employee. Three 10-credit distance learning theory modules will develop your core chemistry knowledge. Comprehensive academic and pastoral support will be provided. Recent destinations for placement students have included Actelion (Switzerland), AstraZeneca (UK and Sweden), BP, GlaxoSmithKline, Infineum, Janssen (Belgium), Lubrizol and Sygnature.

Year four

You will undertake a major 60 credit research project. The project will develop not only your practical ability, team working and problem solving skills, but also your appreciation of published literature, your use of library and computer database resources and your presentation skills. You will complete a further 60 credits of optional modules in year four.

 

Entry requirements

A levels: AAA-AAB, including chemistry at grade A. Typical offers will vary depending on the A level subjects offered in addition to chemistry.

Applicants taking A level biology, chemistry and/or physics are also required to pass the practical element of assessment (where it is assessed separately).

GCSEs: mathematics at grade 4 (or equivalent)

If you make The University of Nottingham your firm choice and do not meet the MSci grades in your offer but meet the BSc grades then you will automatically be offered a place for the BSc F100 degree.

English language requirements 

IELTS 6.0 (no less than 5.5 in any element)

If you require additional support to take your language skills to the required level, you can attend a presessional course at the Centre for English Language Education (CELE), which is accredited by the British Council for the teaching of English. Successful students can progress onto their chosen degree course without taking IELTS again.

Alternative qualifications 

For details see alternative qualifications page

Science Foundation Certificate

International students only

International students (non-EU) who do not have the required qualifications or grades to go directly onto an undergraduate degree course, may be interested in the Science Foundation Certificate delivered through The University of Nottingham International College. You are guaranteed a place on selected undergraduate courses if all progression requirements are met. 

Science with Foundation Year

Home, EU and international students

If you have achieved high grades in your A levels (or equivalent qualifications) but do not meet the current subject entry requirements for direct entry to your chosen undergraduate course, you may be interested in our one year science foundation programme. Applicants must also demonstrate good grades in previous relevant science subjects to apply. You are guaranteed a place on selected undergraduate courses if all progression requirements are met.  

Flexible admissions policy

In recognition of our applicants’ varied experience and educational pathways, The University of Nottingham employs a flexible admissions policy. We consider applicants’ circumstances and broader achievements as part of the assessment process, but do not vary the offer from the grades advertised as a result of these. Please see the University’s admissions policies and procedures for more information.


We value diversity and are committed to equal opportunity.

 
 

Modules

Typical year one modules

Compulsory:

Introduction to Structure, Periodicity and Coordination Chemistry

This module builds on your previous studies in chemistry and provides a firm foundation in topics including: atomic and molecular structure; the shapes of molecules; chemical bonding; Lewis structures; molecular shape and symmetry; Intermolecular interactions and periodic trends in the properties of the elements of the s- and p-blocks; the chemistry of the transition metal elements and their coordination complexes. You’ll attend two lectures per week for this module.

 
Introduction to Spectroscopy, Energy and Bonding in Chemistry

In this module you will learn about the development of quantum theory and the spectroscopy of the hydrogen atom. You will examine the theories used to describe the bonding in molecules and will develop an understanding of microwave and infra-red spectroscopies. The module also introduces you to some of the key concepts in thermodynamics including enthalpy, entropy and free energy and their application in describing equilibria and electrochemical processes. You will develop an understanding of the key concepts in reaction kinetics. You’ll attend two lectures per week for this module.

 
Introduction to Organic Molecules and their Reactivity

You’ll examine the fundamental principles of organic chemistry. This will include nomenclature, bonding concepts, orbitals and the shape, stereochemistry and acid-base properties of organic molecules. Later the module will focus on reactivity and important reactions and transformations in organic chemistry. You’ll attend two lectures per week for this module.

 
Foundation Laboratory Work

This module introduces you to the essential laboratory skills that are required in inorganic, organic and physical chemistry. You’ll spend around eight hours per week in laboratory practicals performing experiments, and collecting and analysing data. You’ll present written reports of your experimental work that will form part of the assessment for this module.

 
Chemistry Study Skills

You’ll follow this introductory module right at the start of your course. It is designed to develop your study skills so that you can work effectively at University. The module will also introduce you to first year undergraduate laboratory chemistry. You’ll spend around four hours in your first week in practical sessions studying this module.

 
Calculations in Chemistry

You’ll gain a firm understanding of the use of mathematical equations in a chemical context.

 
Mathematical Toolkit

You’ll gain a firm understanding of the use of mathematical equations in a chemical context through the study of topics including: scientific notation and significant figures; common chemical units and conversions between them; the rearrangement of chemical expressions and their graphical representation; trigonometry, differentiation and integration, and differential equations for chemical problems.

This module is compulsory for students not offering A-level mathematics (or equivalent); optional for students offering A-level mathematics or equivalent.

 

Optional:

Molecules of Life

You’ll learn about Nature's building blocks including the structure and functions of lipids, amino acids, carbohydrates and nucleotides. You'll also learn about the reactivity of these molecules and their biological roles through case studies.

 
Introduction to Green Chemistry and Processing

In this module you’ll look at green chemistry in its broadest sense, covering the fundamental concepts and chemistry involved in making chemical processes cleaner and more environmentally benign. You’ll spend one hour per week in lectures, seminars and workshops over the whole year studying this module.

 
Frontiers in Chemistry

This module will introduce you to selected topics at the forefront of current research in chemistry from a physical chemistry perspective. Example topics include: nanochemistry and its applications; energy generation and storage technologies; chemistry in the digital age; the chemistry of ions; and the application of advanced photon sources.

 
 
Typical year two modules

Compulsory:

Core Laboratory Work

This module builds on the practical, analytical and communication skills developed in the first year and introduces experiments across the range of chemistry, based on your second year theory modules. You’ll spend around 10 hours per week in practicals for this module. 

 
General Inorganic Chemistry

You’ll spend two hours per week in lectures studying topics including the synthesis, bonding and reactivity of organometallic compounds, the use of symmetry and group theory to interpret infra-red spectra and NMR spectroscopy in inorganic chemistry. Further support is provided by tutorials every third week.

 
Energy, Specrroscopy and Solid State Chemistry

In this module you'll study  the physical principles underlying chemical phenomena, with emphasis on energy, quantum mechanics and spectroscopy. You'll also be introduced to solid-state chemistry, including the structure, characterisation, energetics and the band theory of solids.  You’ll attend two hours of lectures each week in this module. 

 
Synthesis and Spectroscopy

In this module you’ll discuss the reactivity of, suggest synthetic routes for and interpret the spectroscopic characterisation of organic compounds including some natural products. Topics studied include modern spectroscopic techniques, carbon-carbon bond forming reactions, and the influence of heteroatoms on reactivity. You’ll attend two lectures each week in this module and tutorials every third week.

 

Optional:

Atmospheric Chemistry

You’ll study topics such as the physical properties of the atmosphere, chemistry of ozone in the stratosphere, global warming, and analytical methods in atmospheric chemistry in two lectures each week.

 
Principles of Analytical Chemistry

You’ll be introduced to the principles of analytical chemistry, including the principal types of instrumentation used and the statistical treatment of analytical results. You’ll attend two lectures each week studying this module.

 
Medicinal Chemistry and Molecular Biology

This module introduces students to the chemistry of the fundamental building blocks of life; the structures of, and replication processes in prokaryotes; and how these can be disrupted by anti-infectives and harnessed in protein engineering. Fundamental concepts in medicinal chemistry and drug discovery are presented including the mode of action of a number of anti-cancer agents and the basic requirements for drug delivery, metabolism and targeting. You’ll attend two lectures each week for this module. 

 
Advanced Calculus and Differential Equation Techniques

You will be introduced to the differential calculus of functions and vector operators. You’ll consider the development of techniques for the solution of boundary and initial value problems for ordinary differential equations. 

 
 
Typical year three modules
Year in Industry Research Project

In this module you’ll undertake a full-time chemistry research project in industry during the industrial placement year.  You’ll review the relevant published work and plan and execute a research topic under the guidance of two supervisors. Your main supervisor will be your industrial contact and your second supervisor will be an academic from The University of Nottingham. You’ll present your results in an oral presentation and a written report.

 
Organic Chemistry Distance Learning

You'll learn about a range of modern reagents and synthetic methodology, and how these are applied to the synthesis of organic target molecules, such as natural products and active pharmaceuticals. You'll learn about organolithium reagents and how modern palladium-mediated cross-coupling reactions can be used to synthesise complex organic molecules. You’ll follow this module throughout the year through independent study and will be assessed by three written assignments.

 
Inorganic Chemistry Distance Learning

You’ll study the roles of inorganic elements and molecules in biology, the inorganic aspects of the N and O cycles. You’ll learn about the electronic structure, co-ordination chemistry, and redox properties of d-transition metal ions in biological systems and the roles of metalloproteins in dioxygen transport, electron transfer, photosynthesis and dinitrogen fixation. You’ll follow this module throughout the year through independent study and will be assessed by three written assignments.

 
Physical Chemistry Distance Learning

You’ll study the relationships between structure and properties of solids, and develop electronic structure theories that account for a wide range of properties of solids. You’ll learn about semi-conductors, photoconductivity, LEDs and solar cells. You’ll also study the modern theoretical methods that are used to calculate the properties of molecules and materials. You’ll follow this module throughout the year through independent study and will be assessed by three written assignments.

 
 
Typical year four modules

Compulsory:

Chemistry Research Project

You will be welcomed into one of the research groups within the School of Chemistry to undertake an in-depth research project. All projects will involve a review of relevant published work and the planning and execution of a research topic under the guidance of two supervisors.

 


Optional:

Advanced Physical Chemistry

Building on your knowledge from the previous years' modules in inorganic chemistry, you’ll study topics including: electron transfer pathways; inorganic chemistry in biological systems; the principles of molecular and supramolecular photochemistry; applications of inorganic photochemistry; and photocatalysis. You’ll attend two lectures each week in this module. 

 
Contemporary Physical Chemistry

You’ll learn about the properties of matter from condensed matter through to gas phase including the novel states of matter such as ultracold molecules in traps and liquid He nanodroplets, microsolvated clusters, and low dimensional carbon structures. You’ll study the dynamics of chemical processes  and the capability of modern light sources allowing for the study of time-resolved measurements on timescales ranging from pico to attoseconds. You’ll study this module in two lectures per week.

 
Contemporary Organic Synthesis and the Construction of Bioactive Targets

You’ll focus on the synthesis of a variety of architecturally complex bioactive targets, with particular reference to the goals and achievements of targeted synthesis. There is a particular emphasis on the use of modern synthetic methodology to address problems such as chemoselectivity, regiocontrol, stereoselectivity and atom economy. You’ll study this module in two lectures per week. 

 
Medicines from Nature and Pharmaceutical Process Chemistry

In this module you’ll will study the role that natural products from plants, micro-organisms and marine life play in providing leads for today’s drugs and medicines in the fight against cancer, blood pressure, pain, inflammation, bacterial infection, AIDS, Alzheimer’s, Parkinson’s and other diseases. You'll also study how the discovery of biological activity in a natural product can be turned into a useful medicine, and learn about the biosyntheses and total syntheses of natural products. You will attend two lectures per week for this module.

 
Nucleic Acids and Bio-organic Mechanism

In this module you’ll explore the structure, chemistry and molecular recognition of nucleic acids, together with the chemical reactivity of DNA towards mutagens, carcinogens and ionising radiation and anti-tumour drugs. You will also study the chemistry of the coenzymes derived from vitamins and their biological, together with their roles in nutrition. You will attend two lectrues per week in this module.

 
Inorganic and Materials Chemistry

In this module you will explore inorganic photochemistry, electron transport pathways, molecular and supramolecular photochemistry, and artificial photosynthesis together with the principles that underpin green chemistry. You will attend two lectures per week in this module.

 
Self-assembly and Bottom-up Approaches to Nanostructure Fabrication

In this module you’ll study the approaches to the fabrication of molecular assemblies on the nanoscale. You’ll gain an understanding of the nature of intermolecular forces, paying particular attention to their application to self-assembly. You’ll attend two lectures per week in this module. 

 
Enterprise for Chemists

You’ll understand how companies within the chemical sector operate and integrate into the economy and learn about their structure and organisation and how these contribute to form a successful business.

You’ll learn about the factors that lead to successful innovation, including evaluation and management of an idea or concept in chemistry. In addition, you’ll consider the factors required to extract value from a product or concept, and the potential marketing routes available from both an academic and industrial viewpoint.

You’ll develop an understanding of intellectual property, how it is protected and used to create value in the business context. Relevant aspects of intellectual property law will be highlighted, including patents, trademarks, copyright, and trade secrets, with an examination of their relevance and everyday application within the chemistry industries.

 
Advanced Biocatalysis, Biosynthesis and Chemical Biology

In this module you'll explore protein synthesis, chemical genetics approaches to drug discovery and activity based profiling/ proteomics. You'll also review the application of enzymes in organic synthesis and gain a molecular view of biosynthetic pathways.

 
 

The modules we offer are inspired by the research interests of our staff and as a result may change for reasons of, for example, research developments or legislation changes. The above list is a sample of typical modules we offer, not a definitive list.

 
 

Careers

As a Nottingham chemistry graduate you will be well prepared for a wide range of employment and postgraduate study opportunities. The chemical industry continues to be one of the strongest industrial sectors in the UK and the emerging materials and biotechnology sectors require trained chemists who can generate the new materials, products and knowledge that are needed in these areas.

In addition to equipping you with theoretical and practical skills in chemistry, a degree in chemistry from Nottingham also demonstrates that you can think logically and critically, solve complicated problems and manage your time effectively. Consequently, our graduates may also be employed in professions including those in finance, education, marketing and the media.

Average starting salary and career progression

In 2015, 94% of first-degree graduates in the school who were available for employment had secured work or further study within six months of graduation. The average starting salary was £21,889 with the highest being £45,500.*

* Known destinations of full-time home and EU first-degree graduates, 2014/15. Salaries are calculated based on those in full-time paid employment within the UK.

Careers support and advice

Studying for a degree at The University of Nottingham will provide you with the type of skills and experiences that will prove invaluable in any career, whichever direction you decide to take. Throughout your time with us, our Careers and Employability Service can work with you to improve your employability skills even further; assisting with job or course applications, searching for appropriate work experience placements and hosting events to bring you closer to a wide range of prospective employers.

Have a look at our careers page for an overview of all the employability support and opportunities that we provide to current students.  

The University of Nottingham is the best university in the UK for graduate employment, according to the 2017 The Times and The Sunday Times Good University Guide.

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Fees and funding

Scholarships and bursaries

The University of Nottingham offers a wide range of bursaries and scholarships. These funds can provide you with an additional source of non-repayable financial help. For up to date information regarding tuition fees, visit our fees and finance pages.

Home students*

Over one third of our UK students receive our means-tested core bursary, worth up to £2,000 a year. Full details can be found on our financial support pages.

* A 'home' student is one who meets certain UK residence criteria. These are the same criteria as apply to eligibility for home funding from Student Finance.

International/EU students

Our International Baccalaureate Diploma Excellence Scholarship is available for select students paying overseas fees who achieve 40 points or above in the International Baccalaureate Diploma. We also offer a range of High Achiever Prizes for students from selected countries, schools and colleges to help with the cost of tuition fees. Find out more about scholarships, fees and finance for international students.

 
 
 

Key Information Sets (KIS)


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Assessment

This course includes one or more pieces of formative assessment.

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Disclaimer
This online prospectus has been drafted in advance of the academic year to which it applies. Every effort has been made to ensure that the information is accurate at the time of publishing, but changes (for example to course content) are likely to occur given the interval between publishing and commencement of the course. It is therefore very important to check this website for any updates before you apply for the course where there has been an interval between you reading this website and applying.

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