Facilities

The Chemistry building has recently undergone extensive refurbishment and provides modern facilities for about 300 students reading for the taught undergraduate (MChem and BSc) or postgraduate (MSc) programmes together with typically 10 postdoctoral research fellows, 70 postgraduate research workers (MPhil and PhD) and 25 academic staff.

In addition to laboratories servicing the teaching and research needs of analytical, organic, inorganic and physical chemistry, specialist teaching and research laboratories are available within the department for radiochemistry, polymer chemistry, analytical chemistry, microbiology and molecular pharmacology.

The Department has a number of specialist instruments and facilities including:

NMR Spectrometers:

Bruker DPX-400, Bruker Avance Ultra-Shield 400 and Bruker Avance 500, Solid-State NMR spectrometer.

We run proton, carbon, DEPT, COSY and HMQC via open-access automation on the using a gradients dual probe fitted to the DPX-400.

Selective shaped-pulse 1D variants of COSY, TOCSY, HMQC, HMBC, nOe and H2BC, HET-LOC, JRES, and DOSY are run using a BBO ATMA gradients probe fitted to the Av400.

Solid state NMR spectra are recorded on the 500MHz spectrometer, which is fitted with a 4mm HX probe(MAS up to 15kHz) and a 2.5mm HX probe(MAS up to 35kHz).

We routinely record CP-MAS, DP-MAS, TOSS, dipolar dephasing, CP-build up, MAS-J-HMQC, and MQ-MAS.

X-Ray: Single crystal X-ray diffraction.

Bruker APEX 2 CCD diffractometer with Oxford Cryosystems low temperature device.



Structure determination from a single crystal, typically within 24 hours.

Absolute structure determination for samples with atomic number greater than ca. 14.

Mass Spectrometry:

Sector field organic mass spectrometry, LC-MS and GC-MS and two recent acquisitions are:

SF-ICP-MS


The image is of a sector-field, high resolution, inductively-coupled plasma mass spectrometer. The technique is given the acronym SF-ICP-MS. These instruments are used for elemental analysis and can detect concentrations down to ~10-13 grams per ml of the majority of elements in the periodic table. They are one of the most sensitive analytical instruments available and have applications in bio- and medical science, environmental science, food and nuclear science.

Linear Ion Trap LC-MS

The image shows a modern, state-of-the-art, organic mass spectrometer with on-line liquid chromatography. The technique is referred to as LC-MS. This particular mass spectrometer incorporates a trap where ions can be stored and fragmented by collisions to determine their structure. Applications of this technique include the study of drug metabolism, elucidation of the structure of proteins and DNA and the determination of trace organic molecules in the environment.

In addition the Department has an extensive range of modern analytical equipment including instrumentation for separation techniques: LC, GC, HPLC, CE, PAGE, SPE, SPME; molecular spectroscopy UV-VIS, fluorescence, FTIR and Raman and atomic spectrometry AAS, FES and ICP-MS.

A large and well equipped computer room is also available in the main Chemistry building for the use of students of the department during normal working hours.