Chemistry with a Year in Industry
Bachelor's degree
In London
Description
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Type
Bachelor's degree
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Location
London
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Start date
Different dates available
Years one and two of all programmes follow the same core course content supplemented by two ancillary modules that are designed for specific degree programmes. This structure allows many of our students the opportunity to transfer to a different degree programme at a later stage providing they have studied the appropriate ancillary subjects in years one and two.Practical experience in the lab is a major part of all of Imperial’s chemistry courses.
Facilities
Location
Start date
Start date
About this course
These are our core chemistry courses, which cover topics in inorganic, organic and physical chemistry in all years of study. In the fourth year of the MSci courses, you can follow a broad or specialised programme by choosing from a diverse selection of advanced topics. Years one and two of all programmes follow the same core course content supplemented by two ancillary modules that are designed for specific degree programmes. This structure allows many of our students the opportunity to transfer to a different degree...
These degrees are professionally accredited by the Royal Society of Chemistry. They also lead to the award of the Associateship of the Royal College of Science (ARCS).
Reviews
Subjects
- IT
- Organic Chemistry
- Inorganic Chemistry
- Physical Chemistry
- Maths
- Thermodynamics
- Industry
Course programme
Modules shown are for the current academic year, and are subject to change depending on your year of entry.
Year 1 Inorganic chemistry- Atomic Structure
- Spectroscopy and Characterisation
- Main Group Chemistry
- Transition Metal coordination and Organometallic Chemistry
- Crystal and Molecular Architecture
- Structure, Mechanism, Reactivity
- Stereochemistry
- Alkanes, Alkenes, Alkynes
- Haloalkanes, Alcohols, Amines
- Chemistry of Carbonyls and Carboxyls
- Introduction to Physical Organic Chemistry
- Aromatic Chemistry
- Chemical Kinetics
- Spectroscopy
- Solvents and Solvent Effects
- Measurement Science
- Thermodynamics I: Chemical Equilibria
- Thermodynamics II: Molecular Driving Forces
- Quantum Chemistry I: Models
- Maths I
- Maths II
- Maths III
- NMR Spectroscopy
- Molecular Orbitals in Inorganic Chemistry
- Main Group Chemistry
- Transition Metal coordination and Organometallic Chemistry
- Crystal and Molecular Architecture
- Organic Synthesis Pt1
- Heteroaromatics
- Pericyclic
- Bio-organic Chemistry
- Fundamentals of Polymer Chemistry
- Quantum Chemistry II: Molecular Orbital Theory
- Photochemistry
- Electrochemistry and Electrochemical Kinetics
- Modern Analytical Instrumental Techniques
- Spectroscopy and Characterisation II
- Thermodynamics III: Applications
- Maths IV
- Inorganic Mechanisms and Catalysis
- Advanced Main Group
- Advanced Transition Metal Chemistry
- Bioinorganic Chemistry
- Lanthanides and Actinide Chemistry
- Flow Chemistry
- Organic Synthesis
- An Introduction to Reaction Stereoelectronics
- Fundamentals of Polymer Chemistry
- Reactive Intermediates
- Organometallic Complexes in Organic Synthesis
- Biological Chemistry
- Polymers: Structures and Properties
- Carbohydrate Chemistry
- Process Chemistry
- Quantum Chemistry III
- Statistical Thermodynamics
- Photochemistry
- Molecular Reaction Dynamics
- Molecular Electronic Materials
- Lyotropics
- Soft Condensed Matter
- Advanced Topics in Electrochemistry: Pulse Techniques, Sensors and Diagnostics
- Molecular Imaging
- Chemistry of Nanomaterials
- Asymm Catalysis
- Advanced Stereochemistry, Synthesis and Biosynthesis
- Membrane Biophysics
- Plastic Electronics from Materials Chemistry to Device Applications
- Renewable Energy: from Solar Cells to Fuel Cells: the Chemistry of Sustainable Energy
- Robot Chemistry
Chemistry with a Year in Industry