Oxford Silk Group

spider web hero
Oxford Silk Group

About the Group

The Oxford Silk Group led by Prof. Fritz Vollrath studies the biology of silks with the goal to unravel the evolution, ecology, physics and chemistry of these fascinating materials. We often refer to spider silks and in that context we also study spider web  engineering and behaviour. Last but not least, we investigate the metabolic costs of natural silk production and the ecological costs (and benefits) of the commercial silk industry. 

Spiders, lepidoptera and a host of other arthropods make silk. These silks have evolved independently in the different taxa, but tend to share many features. For a start, they are all bio-polymers of one type or another, with generally excellent mechanical properties. Natural silks are environmentally sustainable with the animal making it from aqueous protein melts at ambient temperatures and low pressures. Clearly, this is something to consider copying when designing and making 'fibres for the future'.

Many silks are bio-compatible, making them excellent materials for use in medicine. Many silks are very tough suggesting use in light-weight applications where energy has to be taken up by the material. All silks are disposable, consisting entirely of natural amino acid building blocks that easily integrate into the natural cycle of decay and rebuilding.

Perhaps most importantly; there is a wealth of information hidden in silk on protein folding and on Nature's way of making exceptional polymer structures. This is immensely valuable information that can be extracted by careful research using state-of-the-art analytical tools. For example, recent studies have shown that silk is spun from an aquamelt, which allows its production to be exceptionally energy efficient.

For more information visit: http://www.oxfordsilkgroup.com


Prof Fritz Vollrath - PI

Dr Martin Frydrych - PDRA

Alex Greenhalgh - RA

Nick Hawkins - Lab Technician

Yue-Jin Oh - DTP Candidate

Recent Publications

2017 Hey Tow, K., Chow, D.M., Vollrath, F., Dicaire, I., Gheysens, T. & Thevenaz, L. - Exploring the use of native spider silk as an optical fibre for chemical sensing Journal of Lightwave Technology, 99 

2017 Shimanovich, U., Ruggeri, S.F., De Genst, E., Adamcik, J., Barros, T.P., Porter, D., Muller, T., Mezzenga, R., Dobson, C.M., Vollrath, F., Holland, C. & Knowles, T.P.J. - Silk micrococoons for protein stabilisation and molecular encapsulation Nature Comms, 8: 15902

2017 Cotton, L.J., Vollrath, F., Brasier, M.D. & Dicko, C. - Chemical relationships of ambers using attenuated total reflectance Fourier transform infrared spectroscopy Geo. Soc. London, Special Publications, 448

2017 Koebley, S.R., Vollrath, F. & Schniepp, H.C. - Toughness-enhancing metastructure in the recluse spider's looped ribbon silk. Mater. Horiz.,2017, 4: 377-382

List of site pages