Department of Chemistry course timetable
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. |
Fri 23 |
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. |
Mon 26 |
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. |
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. |
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Tue 27 |
This compulsory course will equip you with the skills required to manage the research information you will need to gather throughout your graduate course, as well as the publications you will produce yourself. It will also help you enhance your online research profile and measure the impact of research. A short break for refreshments will be included |
Wed 28 |
CT8 Electron Microscopy
Finished
The first session will describe the basics of electron diffraction and the main differences from X-ray and neutron diffraction, particularly as regards the strength of the interaction and the complications caused by multiple scattering. The advantages of the method in determining unit cell dimensions will also be discussed. Session two will concentrate on the advantages conferred by forming images with electrons but also on the inherent problems such as the effect of aberrations on the ultimate resolution. If there is sufficient time, a consideration of the information available in high resolution images will be made. |
Thu 29 |
This compulsory session introduces Research Data Management (RDM) to Chemistry PhD students. It is highly interactive and utilises practical activities throughout. Key topics covered are:
Lunch and refreshments are included for this course |
Fri 30 |
CT8 Electron Microscopy
Finished
The first session will describe the basics of electron diffraction and the main differences from X-ray and neutron diffraction, particularly as regards the strength of the interaction and the complications caused by multiple scattering. The advantages of the method in determining unit cell dimensions will also be discussed. Session two will concentrate on the advantages conferred by forming images with electrons but also on the inherent problems such as the effect of aberrations on the ultimate resolution. If there is sufficient time, a consideration of the information available in high resolution images will be made. |
December 2018
Wed 5 |
The main aim of giving a presentation to the public or a science venue is to present information in a way that the audience will remember at a later time. There are several ways in which we can improve this type of impact with an audience. This interactive lecture explores some of those mechanisms. |
Fri 7 |
The main aim of giving a presentation to the public or a science venue is to present information in a way that the audience will remember at a later time. There are several ways in which we can improve this type of impact with an audience. This interactive lecture explores some of those mechanisms. This session will require 4-5 volunteers to provide a 10 min talk which the session will show how to improve. Presenters in the following week's Peer to Peer presentations will be given priority booking for this event. |
January 2019
Mon 14 |
SC1-10 Statistics for Chemists
Finished
This course is made up of 8 sessions which will be based around the topics below: unlike other courses in the Graduate Lecture Series, it is essential to attend all 8 sessions to benefit from this training. Places are limited so please be absolutely certain upon booking that you will commit to the entire course. |
Wed 16 |
SC1-10 Statistics for Chemists
Finished
This course is made up of 8 sessions which will be based around the topics below: unlike other courses in the Graduate Lecture Series, it is essential to attend all 8 sessions to benefit from this training. Places are limited so please be absolutely certain upon booking that you will commit to the entire course. |
FS8 Supervising Undergraduates
Finished
In this short talk we will cover what supervisions are, the role they play in Cambridge teaching, and how supervisors are recruited. We will then go on to look at how you can prepare for supervising, how you can conduct a supervision, and how to deal with common pitfalls. |
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Mon 21 |
SC1-10 Statistics for Chemists
Finished
This course is made up of 8 sessions which will be based around the topics below: unlike other courses in the Graduate Lecture Series, it is essential to attend all 8 sessions to benefit from this training. Places are limited so please be absolutely certain upon booking that you will commit to the entire course. |
Wed 23 |
SC1-10 Statistics for Chemists
Finished
This course is made up of 8 sessions which will be based around the topics below: unlike other courses in the Graduate Lecture Series, it is essential to attend all 8 sessions to benefit from this training. Places are limited so please be absolutely certain upon booking that you will commit to the entire course. |
Thu 24 |
FS1 - Successful Completion of a Research Degree An hour devoted to a discussion of how to plan your time effectively on a day to day basis, how to produce a dissertation/thesis (from first year report to MPhil to PhD) and the essential requirements of an experimental section. FS2 - Dignity@Study The University of Cambridge is committed to protecting the dignity of staff, students, visitors to the University, and all members of the University community in their work and their interactions with others. The University expects all members of the University community to treat each other with respect, courtesy and consideration at all times. All members of the University community have the right to expect professional behaviour from others, and a corresponding responsibility to behave professionally towards others. Nick will explore what this means for graduate students in this Department and the session will conclude with tea/coffee and biscuits, in order to provide an opportunity to ask questions more informally. This is a compulsory session for 1st year post-graduates. |
Fri 25 |
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. |
Mon 28 |
SC1-10 Statistics for Chemists
Finished
This course is made up of 8 sessions which will be based around the topics below: unlike other courses in the Graduate Lecture Series, it is essential to attend all 8 sessions to benefit from this training. Places are limited so please be absolutely certain upon booking that you will commit to the entire course. |
The CCDC is the home of small molecule crystallography data and is a leader in software for pharmaceutical discovery, materials development, research and education. The CCDC compiles and distributes the Cambridge Structural Database (CSD), the world's repository of experimentally determined organic and metal-organic crystal structures. It also produces associated knowledge-based application software for the global community of structural chemists, delivered through the CSD-System, CSD-Discovery, CSD-Materials and CSD-Enterprise. The CCDC originated in the Department of Chemistry at the University of Cambridge, and is now a fully independent institution constituted as a non-profit company and a registered charity. Ian Bruno, Head of Strategic Partnerships at the CCDC, will present this session. Ian will firstly introduce the CCDC and the CSD, and will then focus on enablers for FAIR (Findable, Accessible, Interoperable, Reusable) chemistry data, including standard identifiers (e.g. InChI), standard file formats (e.g. for spectra), open file formats (e.g. for structures), and vocabularies. A second session will follow on identifiers and extensions to the InChI that have been introduced in this session, to be presented by Professor Jonathan Goodman (IS9 course). Refreshments (tea, coffee, biscuits) are included for this session. |
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Wed 30 |
SC1-10 Statistics for Chemists
Finished
This course is made up of 8 sessions which will be based around the topics below: unlike other courses in the Graduate Lecture Series, it is essential to attend all 8 sessions to benefit from this training. Places are limited so please be absolutely certain upon booking that you will commit to the entire course. |
February 2019
Mon 4 |
SC1-10 Statistics for Chemists
Finished
This course is made up of 8 sessions which will be based around the topics below: unlike other courses in the Graduate Lecture Series, it is essential to attend all 8 sessions to benefit from this training. Places are limited so please be absolutely certain upon booking that you will commit to the entire course. |
Wed 6 |
SC1-10 Statistics for Chemists
Finished
This course is made up of 8 sessions which will be based around the topics below: unlike other courses in the Graduate Lecture Series, it is essential to attend all 8 sessions to benefit from this training. Places are limited so please be absolutely certain upon booking that you will commit to the entire course. |
This compulsory session introduces Research Data Management (RDM) to Chemistry PhD students. It is highly interactive and utilises practical activities throughout. Key topics covered are:
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