Susan Perkin
Alma materUniversity of Oxford
Scientific career
InstitutionsUniversity College London
University of Oxford
ThesisCounterion and charge correlation effects on surface interactions (2006)
WebsiteSurface Forces Research Laboratory

Susan Perkin is a British chemist who is a Professor of Physical Chemistry at the University of Oxford. Her research considers the physics of liquids and soft matter. She was awarded the 2016 Harrison-Meldola Memorial Prize and named the Soft Matter Lecturer of 2018. In 2015 Perkin was awarded a European Research Council starting grant and in 2020 she was awarded a European Research Council consolidator grant.

Early life and education

Perkin was an undergraduate student at the University of Oxford, where she completed a master's degree in chemistry at St John's College.[1] She remained at Oxford for her doctoral research, where she worked alongside Jacob Klein.[2] Her research involved placements at Oxford and the Weizmann Institute of Science. Before completing her doctorate, Perkin was made a Junior Research Fellow at Merton College, Oxford.[1]

Research and career

In 2007 Perkin was named a Research Councils UK Fellow at University College London.[3] She returned to Oxford in 2012 to join the faculty in the Department of Chemistry, where she serves as a Fellow of Trinity College.[4]

Perkin is interested in liquid interfaces, and explores them using a surface forces balance. In such experiments, liquids are confined between insulators or electrodes, and measurements are made of their mechanical, optical, electrical and dynamic properties.[5] This set-up allows for characterisation of materials properties in both natural (i.e. non-biased) and working (i.e. during device operation) environments. This type of characterisation is essential to the application of functional materials in energy storage and bio-materials.[6]

She leads a European Research Council funded programme that looks at electrolytic materials, in an effort to understand the fundamental physics that underpins their properties and interactions.[7] Electrolytic materials are used in the electrolytes for batteries and form the interiors of halophilic organisms.[7] One type of electrolyte is an ionic liquid, which is in a liquid state in ambient conditions because their asymmetric, bulky ionic structures will not crystallise. Despite this, the dynamics of ionic liquids cannot be explained using conventional physical theories.[8] By using surface force analysis to study ionic liquids, Perkin has shown it is possible to estimate the screening length, near-surface ordering, capacitance and charge regulation.[6]

Awards and honours

Selected publications

References

  1. 1 2 "Puzzles with Ionic Liquids and Concentrated Electrolytes - EPFL". memento.epfl.ch. Retrieved 2020-12-22.
  2. Holt, Jade (2015-03-13). "Introducing JPCM's new Liquids, soft matter and biological physics Editorial Board members". JPhys+. Retrieved 2020-12-22.
  3. 1 2 "2018 Soft Matter Lectureship Awarded to Susan Perkin – Soft Matter Blog". Retrieved 2020-12-22.
  4. "Susan Perkin - The Oxford Centre for Soft & Biological Matter". www.softbio.ox.ac.uk. Retrieved 2020-12-22.
  5. EOWD. "nanoTRANS ::: network". www.etn-nanotrans.eu. Retrieved 2020-12-22.
  6. 1 2 "Research - Surface Forces Research Laboratory". perkin.chem.ox.ac.uk. Retrieved 2020-12-22.
  7. 1 2 3 "University of Oxford awarded major European Research Council funding | University of Oxford". www.ox.ac.uk. 9 December 2020. Retrieved 2020-12-22.
  8. "FUTURE OF CHEMICAL PHYSICS" (PDF). American Institute of Physics. 2017-08-04.
  9. "Royal Society of Chemistry Prizes and Awards 2016". Royal Society of Chemistry. 9 May 2016. Retrieved 2020-12-22.
  10. "Philip Leverhulme Prizes 2016 | The Leverhulme Trust". www.leverhulme.ac.uk. Retrieved 2020-12-22.
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