2024/25 Undergraduate Module Catalogue
CHEM2451 Further Practical and Research Skills for Medicinal Chemists
30 creditsClass Size: 70
Module manager: Dr Stephen Gorman
Email: S.A.Gorman@leeds.ac.uk
Taught: Semesters 1 & 2 (Sep to Jun) View Timetable
Year running 2024/25
Pre-requisite qualifications
Level 1 in Chemistry or equivalentThis module is mutually exclusive with
CHEM2410 | Laboratory Work 2a |
CHEM2415 | Laboratory Work 2X |
CHEM2420 | Laboratory Work 2b |
CHEM2620 | Laboratory Work 2c |
Module replaces
CHEM2620 Laboratory work 2cThis module is not approved as a discovery module
Module summary
Students develop skills to:(i) undertake a selection of experiments in the synthetic and physical chemistry laboratories appropriate to the level 2 theory modules and to the general development of good laboratory technique.(ii) design simple investigative procedure by undertaking an open-ended experiment.The module is designed to incorporate key requirements as outlined by the RSC in accreditation of chemistry degree programmes.Objectives
To introduce students to the chemistry laboratory and equipment and to develop appropriate IT skills. On completion of this module students will have:- undertaken introductory experimental work, with due attention to safety, in the chemical laboratory;
- manipulated laboratory apparatus and record data for subsequent analysis;
- synthesized medicinal and organic molecules of relative structural complexity;
- for this level, competently handled air-sensitive materials and used them safely in synthetic methods;
- determined structure using spectroscopic data;
- undertaken independent experimental work, with due attention to safety, and demonstrate the ability to write clear, scientific reports
- experienced the design and implementation of an investigation into a simple chemical problem using modern experimental techniques;
- developed an awareness of the nature of investigative chemistry, and the ability to interpret and present experimental evidence;
- developed their practical and problem solving skills.
- keep an appropriate record of work in the laboratory and write laboratory reports in appropriate style;
- record data and physical measurements and comment on their precision and accuracy;
- use selected chemical apparatus and instruments in an appropriate manner;
- use PC-based spreadsheets, graphics and word-processing packages to manipulate and plot data and to prepare reports;
- perform basic mathematical manipulations as required for year 2 theory modules etc.
- undertaken a short project exploring the main areas of the drug design process
Learning outcomes
The practical component of the experiments incorporates the following themes, and students completing the module will be able to demonstrate:
(a) confidence in safely handling reagents/solvents, including those that are air-sensitive and/or pose a hazard;
(b) ability to undertake experimental work, with due attention to safety;
(c) ability to manipulate laboratory apparatus and record data for subsequent analysis;
(d) ability to synthesize medicinal, inorganic and organic molecules of relative structural complexity;
(e) determine structure using spectroscopic data;
(f) an understanding of the most common practical techniques and their proper application in the laboratory situation;
(g) a knowledge of current techniques and methodologies appropriate to synthetic chemistry, with hands on practical experience of some of these
(h) an appreciation of some specialist areas through research-led teaching, reflecting the research expertise within the School;
(i) an ability to analyze, interpret and evaluate data; acquire and integrate information, and use information to solve problems appropriate for level 2;
(j) an ability to effective communication through a variety of media;
(k) an ability to record data and physical measurements and comment on their precision and accuracy;
(l) an ability to use selected chemical apparatus and instruments in an appropriate manner;
(m) the ability to use PC-based spreadsheets, drug docking and screening software, graphics and word-processing packages to manipulate and plot data and to prepare reports;
(n) an ability to perform basic mathematical manipulations as required for year 2 theory modules etc.
(o) an ability to design and undertake computational methods to aid the drug discovery process
(p) be able to apply computational methods and biological screening to find an active inhibitor of a known target.
(q) be able to obtain reliable data and critique your results in a scientific manner.
(r) be able to work as a team, sharing your experimental results with fellow team members and contributing your background knowledge in selecting a drug candidate.
Skills outcomes
Use of scientific instrumentation.
Development of practical skills.
Development of research/investigative skills.
Syllabus
Over the course of two semesters students will undertake a selection of experiments in the areas of medicinal, organic and physical chemistry, appropriate to the level 2 theory modules and designed for the general development of investigative laboratory techniques. The experiments are designed to cover:
• safety in the laboratory, COSHH regulations and good laboratory practice,
• the preparation and characterisation of medicinal compounds, and the use of analytical techniques to investigate them,
• the synthesis of a selection of organic/inorganic compounds, and an introduction to the use of spectroscopic techniques to confirm their structure,
• a range of physical measurements and appropriate data analysis; an introduction to computational methods with relevance to modern chemistry; an introduction to mathematical methods required for chemistry,
• as an introduction to investigative chemistry
• have an understanding of the sequence of steps used to find drug candidates in the pharmaceutical industry
There will also be a series of lectures and workshops to support and extend those learning and research skills delivered through the laboratory experiments.
Teaching methods
Delivery type | Number | Length hours | Student hours |
Laboratory | 24 | 3.50 | 84.00 |
Workshop | 14 | 1.00 | 14.00 |
Computer Class | 3 | 3.00 | 9.00 |
Supervised Practice | 6 | 2.00 | 12.00 |
presentation | 1 | 3.00 | 3.00 |
Seminar | 1 | 2.00 | 2.00 |
Private study hours | 176.00 | ||
Total Contact hours | 124.00 | ||
Total hours (100hr per 10 credits) | 300.00 |
Private study
Each experiment has an online briefing and test which the students need to complete before starting the experiment.Certain experiment require full reports which will involve private study to complete.
All practical modules have a series of preparatory training presentations/videos/tests which need to be completed prior to starting assessed experiments.
Opportunities for Formative Feedback
Experimental laboratory reports marked regular throughout both semesters.Completion of computer-based assignments at intervals.
Methods of assessment
Coursework
Assessment type | Notes | % of formal assessment |
Practical | Continuous assessment of lab reports, group work and online tests. | 100.00 |
Total percentage (Assessment Coursework) | 100.00 |
*To pass the module, students must achieve: an average mark of 40% or higher on the experimental part conducted in the Synthetic and Analytical Chemistry laboratory, and; an overall average mark of 40% or above.
Reading list
There is no reading list for this moduleLast updated: 29/04/2024 16:12:08
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