Department of Chemistry course timetable
October 2018
Mon 8 |
This compulsory session introduces new graduate students to the Department of Chemistry Library and its place within the wider Cambridge University Library system. It provides general information on what is available, where it is, and how to get it. Print and online resources are included. |
Tue 9 |
IS1 Chemistry Library Orientation
Finished
This is a compulsory session which introduces new graduate students to the Department of Chemistry Library and its place within the wider Cambridge University Library system. It provides general information on what is available, where it is, and how to get it. Print and online resources are included. You must choose one session out of the 9 sessions available. |
IS1 Chemistry Library Orientation
Finished
This is a compulsory session which introduces new graduate students to the Department of Chemistry Library and its place within the wider Cambridge University Library system. It provides general information on what is available, where it is, and how to get it. Print and online resources are included. You must choose one session out of the 9 sessions available. |
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Wed 10 |
IS1 Chemistry Library Orientation
Finished
This is a compulsory session which introduces new graduate students to the Department of Chemistry Library and its place within the wider Cambridge University Library system. It provides general information on what is available, where it is, and how to get it. Print and online resources are included. You must choose one session out of the 9 sessions available. |
Mass spectrometry is one of the main analytical-chemical techniques used to characterise organic compounds and their elemental composition. This overview will discuss some of the most frequently used mass spectrometry techniques and their specific strengths (e.g., quadrupole, time-of-flight and high-resolution MS), as well as ionisation techniques such as electron ionisation (EI), electrospray ionisation (ESI), matrix assisted laser desorption/ionisation (MALDI) and MS techniques to quantify metal concentrations (e.g. inductively coupled plasma MS, ICP-MS) and isotope ratios. |
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Thu 11 |
IS1 Chemistry Library Orientation
Finished
This is a compulsory session which introduces new graduate students to the Department of Chemistry Library and its place within the wider Cambridge University Library system. It provides general information on what is available, where it is, and how to get it. Print and online resources are included. You must choose one session out of the 9 sessions available. |
IS1 Chemistry Library Orientation
Finished
This is a compulsory session which introduces new graduate students to the Department of Chemistry Library and its place within the wider Cambridge University Library system. It provides general information on what is available, where it is, and how to get it. Print and online resources are included. You must choose one session out of the 9 sessions available. |
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Fri 12 |
IS1 Chemistry Library Orientation
Finished
This is a compulsory session which introduces new graduate students to the Department of Chemistry Library and its place within the wider Cambridge University Library system. It provides general information on what is available, where it is, and how to get it. Print and online resources are included. You must choose one session out of the 9 sessions available. |
Mass spectrometry is one of the main analytical-chemical techniques used to characterise organic compounds and their elemental composition. This overview will discuss some of the most frequently used mass spectrometry techniques and their specific strengths (e.g., quadrupole, time-of-flight and high-resolution MS), as well as ionisation techniques such as electron ionisation (EI), electrospray ionisation (ESI), matrix assisted laser desorption/ionisation (MALDI) and MS techniques to quantify metal concentrations (e.g. inductively coupled plasma MS, ICP-MS) and isotope ratios. |
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Mon 15 |
This session is compulsory for all experimentalists to attend and will provide useful information regarding analytical facilities at this Department including NMR, mass spectrometry and X-ray crystallography. Short descriptions will be given of all available instruments, together with a tour to show participants where these instruments are located, as well as explain the procedures for preparing/submitting samples for the analysis will also be discussed. |
Tue 16 |
This session introduces new undergraduate Chemistry students to the Department of Chemistry Library and its place within the wider Cambridge University Library system. It provides general information on what is available, where it is, and how to get it. Print and online resources are included. |
Wed 17 |
During the last decade, mass spectrometry (MS) has become an indispensable tool in experimental biophysics, capable of providing unique information on the conformation and dynamics of biomolecules, as well as their interactions with physiological partners. In this short course, the current state of biophysical MS will be presented, with emphasis on experimental techniques that are used to study protein higher order structure and dynamics. Biophysical methods that use MS are native MS, tandem MS (MS/MS), liquid chromatography MS (LC-MS), hydrogen-deuterium exchange MS (HDX-MS), chemical cross-linking MS (CXL-MS) and ion mobility MS (IM-MS). |
This session introduces new undergraduate Chemistry students to the Department of Chemistry Library and its place within the wider Cambridge University Library system. It provides general information on what is available, where it is, and how to get it. Print and online resources are included. |
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Thu 18 |
This session introduces new undergraduate Chemistry students to the Department of Chemistry Library and its place within the wider Cambridge University Library system. It provides general information on what is available, where it is, and how to get it. Print and online resources are included. |
Fri 19 |
During the last decade, mass spectrometry (MS) has become an indispensable tool in experimental biophysics, capable of providing unique information on the conformation and dynamics of biomolecules, as well as their interactions with physiological partners. In this short course, the current state of biophysical MS will be presented, with emphasis on experimental techniques that are used to study protein higher order structure and dynamics. Biophysical methods that use MS are native MS, tandem MS (MS/MS), liquid chromatography MS (LC-MS), hydrogen-deuterium exchange MS (HDX-MS), chemical cross-linking MS (CXL-MS) and ion mobility MS (IM-MS). |
Mon 22 |
CT4 Solution Phase NMR Spectroscopy
Finished
Nuclear Magnetic Resonance (NMR) spectroscopy represents one of the most informative and widely used techniques for characterisation of compounds in the solution and solid state. Most researchers barely tap into the potential of the experiments that are available on the instruments in the Department, so in this short course we will explore the basic concepts that will allow you to make the most of these powerful techniques for routine analysis, as well as introducing more specialised experiments. |
Tue 23 |
This session introduces new undergraduate Chemistry students to the Department of Chemistry Library and its place within the wider Cambridge University Library system. It provides general information on what is available, where it is, and how to get it. Print and online resources are included. |
Wed 24 |
CT4 Solution Phase NMR Spectroscopy
Finished
Nuclear Magnetic Resonance (NMR) spectroscopy represents one of the most informative and widely used techniques for characterisation of compounds in the solution and solid state. Most researchers barely tap into the potential of the experiments that are available on the instruments in the Department, so in this short course we will explore the basic concepts that will allow you to make the most of these powerful techniques for routine analysis, as well as introducing more specialised experiments. |
This session introduces new undergraduate Chemistry students to the Department of Chemistry Library and its place within the wider Cambridge University Library system. It provides general information on what is available, where it is, and how to get it. Print and online resources are included. |
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Fri 26 |
CT4 Solution Phase NMR Spectroscopy
Finished
Nuclear Magnetic Resonance (NMR) spectroscopy represents one of the most informative and widely used techniques for characterisation of compounds in the solution and solid state. Most researchers barely tap into the potential of the experiments that are available on the instruments in the Department, so in this short course we will explore the basic concepts that will allow you to make the most of these powerful techniques for routine analysis, as well as introducing more specialised experiments. |
Mon 29 |
The aim of the session is:
The session will also give an insight into some of the more advanced features of the software, and how to optimise your workflow. |
November 2018
Wed 7 |
CT6 Solid State NMR Spectroscopy
Finished
The aim of this course is to provide an idea of what kind of scientific problems can be solved by solid state NMR. It will cover how NMR can be used to study molecular structure, nanostructure and dynamics in the solid state, including heterogeneous solids, such as polymers, MOFs, energy-storage and biological materials. No previous knowledge of solid state NMR will be required, just a basic working knowledge of solution-state NMR for 1H and 13C, i.e. undergraduate level NMR. In order to highlight the utility of this technique, some materials based research using solid state NMR will also be covered. |
Fri 9 |
CT6 Solid State NMR Spectroscopy
Finished
The aim of this course is to provide an idea of what kind of scientific problems can be solved by solid state NMR. It will cover how NMR can be used to study molecular structure, nanostructure and dynamics in the solid state, including heterogeneous solids, such as polymers, MOFs, energy-storage and biological materials. No previous knowledge of solid state NMR will be required, just a basic working knowledge of solution-state NMR for 1H and 13C, i.e. undergraduate level NMR. In order to highlight the utility of this technique, some materials based research using solid state NMR will also be covered. |
Wed 14 |
CT9 Atomic Force Microscopy
Finished
Probe microscopy is a general term for a class of microscopy in which well-defined nanoscale probes are used to interact with a sample in some manner. In this introductory lecture the necessary background principles to understand probe microscopy are explained with reference to Scanning Tunnelling Microscopy and Atomic Force Microscopy in both tapping and contact mode. This will provide the user with the necessary background to make the most of the increasingly well-used Departmental Keysight 5500 multimode system, which is operated and maintained by the Melville Lab. Probe microscopy is of interest to anyone with a need to perform single molecule or surface based studies. Typically anything involving a surface interaction is accessible and the technique is particularly well suited to studying a variety of chemical and electromechanical properties of aggregates with 1-1000 nm dimensions. Recently, the system has been used to study cellulose crystals, amyloid fibres, protein monolayers, thermal properties of polymer films, doped graphite and so on. Other modes are available on the Keysight system such as pico-trec, electrochemical STM, EFM, KFM, MFM, and LFM and these modes will be described but not explained in detail during the lecture. |
Thu 15 |
CT7 X-Ray Crystallography
Finished
These lectures will introduce the basics of crystallography and diffraction, assuming no prior knowledge. The aim is to provide an overview that will inspire and serve as a basis for researchers to use the Department’s single-crystal and/or powder X-ray diffraction facilities or to appreciate more effectively results obtained through the Department’s crystallographic services. The final lecture will be devoted to searching and visualising crystallographic data using the Cambridge Structural Database system. |