神马福利影片

for 鈥渋cy road鈥� warning signs which was able to operate autonomously without the use of electricity...

The Gibson and groups have collaborated with partners in Switzerland to use . Read more

In November 2018, the Monash Warwick Alliance funded Chemists to develop and identify cost-effective, highly active, selective and stable catalysts. Check their progress...

The , in collaboration with Dr Tom Whale, have published in the , showing that polymer nanoparticles can inhibit ice growth. Read more...

Researchers at the Universities of Warwick and Nottingham have received EPSRC funding to launch a ground-breaking research programme for global specialist chemical manufacturer, Lubrizol.

Ingrained prejudices and a lack of action addressing discrimination are some of the main reasons why academic chemistry is overwhelmingly white...

The 神马福利影片 spin-out company, CryoLogyx, has received a further investment from Oxford Technology Management and private investors, alongside 拢300k from InnovateUK.

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?

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 神马福利影片, 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.