News Library
Warwick trio win prestigious RSC Prizes
Dr Sebastian Pike wins the Sir Edward Frankland Prize, Dr Dr Adrian Chaplin, takes the Sir Geoffrey Wilkinson Prize, and Professor Julie Macpherson has been named winner of the Tilden Prize. Read more.Link opens in a new window
BonLab designs autonomous electricity-free "icy road" sign
We set out to develop a prototype for “icy road” warning signs which was able to operate autonomously without the use of electricity...
Discovery of minimalistic cyclic ice binding peptides
The Gibson and Sosso groups have collaborated with partners in Switzerland to use phage display to discover small antifreeze peptides. Read more
Polymer Nanoparticles to Control Ice Growth
The GibsonGroup, in collaboration with Dr Tom Whale, have published in the Journal of the American Chemical Society, showing that polymer nanoparticles can inhibit ice growth. Read more...
Solving the puzzle of polymer-ice binding for cryopreservation
When biological material is frozen, cryoprotectants are used to prevent ice damage. How do newly emerging polymeric cryoprotectants control ice formation and growth during freezing?
Soil bacteria hormone discovery provides fertile ground for new antibiotics
The discovery of how hormone-like molecules turn on antibiotic production in soil bacteria could unlock the untapped opportunities for medicines that are under our very feet.
An international team of scientists working in the Department of Chemistry, the School of Life Sciences and the Warwick Integrative Synthetic Biology Centre at the University of Warwick, UK, and Monash University, Australia, have determined the molecular basis of a biological mechanism that could enable more efficient and cost-effective production of existing antibiotics, and also allow scientists to uncover new antibiotics in soil bacteria.
It is detailed in a new study published in the journal Nature.
Warwick students and staff co-author RSC teaching book on Stereochemistry
Written, reviewed and tested by students, for students! As part of the RSC's latest series of tutorial textbooks, a team of students and staff have co-authored textbooks on Stereochemistry and Contextual Maths in Chemistry.
Warwick students Caroline Akamune and Matthew Taylor and academics Andrew Clark and Russ Kitson teamed up with Leeds student Michael Lloyd and academics Nimesh Mistry and Paul Taylor to create a new stereochemistry textbook. What makes this book different is that it is co-authored with students to be in the 'student voice' making it more accessible to the undergraduate reader. It is also written so it can be used in conjunction with a molecular modelling kit, in-line with research that shows rotating and manipulating objects (e.g. molecular models) with your hands helps with grasping spatial cognition concepts in your head!
The RSC Chemistry Student Guides series editing team includes Warwick's own Julie Macpherson.
Strongest carbon-carbon single bond yields to macrocyclic Rh complex
Oxidative Addition of a Mechanically Entrapped C(sp)-C(sp) Bond to a Rhodium(I) Pincer Complex
By use of a macrocyclic phosphinite pincer ligand and bulky substrate substituents, researchers in the Chaplin group have demonstrated how the mechanical bond can be leveraged to promote the oxidative addition of an interlocked 1,3‐diyne to a rhodium(I) center. The resulting rhodium(III) bis(alkynyl) product can be trapped out by reaction with carbon monoxide or intercepted through irreversible reaction with dihydrogen, resulting in selective hydrogenolysis of the C−C σ‐bond.
HOT article in Angew. Chem. Int. Ed.