Dr Jeremy Cockcroft

Dr Jeremy Cockcroft

Senior Lecturer

Dept of Chemistry

Faculty of Maths & Physical Sciences

Joined UCL
1st Nov 2006

Research summary

Despite the fact that many of my current teaching duties are now in the classical area of Inorganic Chemistry, my research interests are very wide and diverse, though invariably they revolve around either X-ray (or sometimes neutron) diffraction studies of powder samples under a variety of conditions.

I have studied polymorphism of organic molecules (particularly those of pharmaceutical interest), orientational order-disorder phase transitions in inorganic salts, magnetic phase transitions, structure solution by powder methods, solid-state kinetics, and I have even dabbled in protein crystallography. I am particularly interested in applying crystallography and diffraction methods to chemical problems. In particular, I find curiosity-driven experiments, and especially the serendipitous aspects of scientific research, highly stimulating and far more rewarding intellectually, than planned research based on delivery targets and short-term financial outcomes. Gant charts and their ilk are fine for managing complex projects, but do they encourage blue skies thinking? A few of my current interests are described in more detail below.

Teaching summary

CHEM0005 1st Year Workshops: Foundation Inorganic Chemistry (3)

CHEM0013 1st Year Tutorials: Basic Inorganic Chemistry (9)

CHEM0014/5 2nd Year Lectures: Inorganic Chemistry on the Solid State (9-10)

CHEM0025 3rd Year Practical Labs: PXRD Qualitative Analysis (16 afternoons)

CHEM0030 3rd Year Lectures: Adv. Inorganic Chemistry on Ln and An (8)

I previously taught on CHEM0029 re Synchrotron and Neutron Techniques


University of Oxford
Doctorate, Doctor of Philosophy | 1985


The uncropped photo shows me standing next to the Stoe X-ray powder diffractometer with the small PSD mounted and looking at the newly-installed Oxford Instruments Cryojet. The latter is now used routinely for measuring samples cooled down to about 100 K and heated up to about 500 K. For very low temperature work down to about 5 K, we have aliquid-helium "orange" cryostat, similar in design to those used at ILL, Grenoble, and ISIS, RAL, but with clear mylar windows for use with a laboratory X-ray source, which has been installed and tested with much help from Martin Vickers and Mark Ellerby (in the Department of Physics at UCL). Our Stoe STADI-P instrument is used heavily as it gives more reliable intensity data, e.g. data suitable for structure refinement by the Rietveld method, than our older D500 Bragg-Brentano diffractometer. To complement the low-temperature facilities, a high-temperature furnaces has been developed in collaboration with G. Sankar.
In contrast to many academics, I am very much a "hands-on" academic who likes to participate actively in experiments and help out students and post-docs alike, both in our PXRD laboratory and at large-scale central facilities, e.g. the X-ray synchrotron and neutron sources. So look for me in the PXRD labs before trying out my office (and certainly avoid phoning me in the latter without prior warning as I'm unlikely to answer your call)!