New research has revealed that simple, commercially available computer programmes could be used to design next generation drug-delivery systems by predicting more easily how different chemical compounds interact.
Led by Dr Jennifer Hiscock of the University of Kent, a team of researchers has identified a new more cost-effective way of predicting how compounds known as amphiphiles will interact with each other to impart specific physical properties to a solution.
The study, entitled Towards the prediction of global solution state properties for hydrogen bonded, self-associating amphiphiles, has revealed for the first time the potential for simple, easily accessible new methods of predicting on a computer how the compounds will behave.
The research involved the team using computer modelling to exhibit desired, pre-programmed properties before the chemical compounds even exist in real life.
The research is likely speed up the development – and decrease costs – associated with developing new methods of delivering drugs and medical-grade soaps and gels.
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Towards the prediction of global solution state properties for hydrogen bonded, self-associating amphiphiles (Lisa White, Stilyana Tyuleva, Ben Wilson, Helena Shepherd, Kendrick Ng, Simon Holder, Ewan Clark and Jennifer Hiscock, all School of Physical Sciences, University of Kent) is published in the journal Chemistry – A European Journal. See: https://onlinelibrary.wiley.com/doi/abs/10.1002/chem.201801280
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Notes to editors
Established in 1965, the University of Kent – the UK's European university – now has almost 20,000 students across campuses or study centres at Canterbury, Medway, Tonbridge, Brussels, Paris, Athens and Rome.
It has been ranked 22nd in the Guardian University Guide 2018 and 25th in the Complete University Guide 2018, and in June 2017 was awarded a gold rating, the highest, in the UK Government's Teaching Excellence Framework (TEF).In the Times Higher Education (THE) World University Rankings 2015-16, it is in the top 10% of the world's leading universities for international outlook and 66th in its table of the most international universities in the world. The THE also ranked the University as 20th in its 'Table of Tables' 2016.
Kent is ranked 17th in the UK for research intensity (REF 2014). It has world-leading research in all subjects and 97% of its research is deemed by the REF to be of international quality.
In the National Student Survey 2016, Kent achieved the fourth highest score for overall student satisfaction, out of all publicly funded, multi-faculty universities. Along with the universities of East Anglia and Essex, Kent is a member of the Eastern Arc Research Consortium (http://www.kent.ac.uk/about/partnerships/eastern-arc.html). The University is worth £0.7 billion to the economy of the south east and supports more than 7,800 jobs in the region. Student off-campus spend contributes £293.3m and 2,532 full-time-equivalent jobs to those totals.
Kent has received two Queen's Anniversary prizes for Higher and Further Education.
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http://dx.doi.org/10.1002/chem.201801280
