Shengda is interested in electrochemical processes and related surface changes at nanoscale. He is now a PhD working on in-situ TEM of liquid battery cells under the supervision of Dr. Alex Robertson and Prof. Peter Bruce in Oxford.
Before coming to Oxford, Shengda obtained his BEng degree in Materials from Imperial College London. He then worked as an MPhil research student under the supervision of Dr. Steve Ooi and Sir. Harry Bhadeshia at University of Cambridge where he studied the hydrogen behaviors during phase transformation in steels.
Email: shengda.pu@queens.ox.ac.uk
Shengda is interested in electrochemical processes and related surface changes at nanoscale. He is now a PhD working on in-situ TEM of liquid battery cells under the supervision of Dr. Alex Robertson and Prof. Peter Bruce in Oxford.
Before coming to Oxford, Shengda obtained his BEng degree in Materials from Imperial College London. He then worked as an MPhil research student under the supervision of Dr. Steve Ooi and Sir. Harry Bhadeshia at University of Cambridge where he studied the hydrogen behaviors during phase transformation in steels.
Email: shengda.pu@queens.ox.ac.uk
Shengda is interested in electrochemical processes and related surface changes at nanoscale. He is now a PhD working on in-situ TEM of liquid battery cells under the supervision of Dr. Alex Robertson and Prof. Peter Bruce in Oxford.
Before coming to Oxford, Shengda obtained his BEng degree in Materials from Imperial College London. He then worked as an MPhil research student under the supervision of Dr. Steve Ooi and Sir. Harry Bhadeshia at University of Cambridge where he studied the hydrogen behaviors during phase transformation in steels.
Email: shengda.pu@queens.ox.ac.uk
ROBERTSON GROUP
University of Warwick
Robert Wells - PhD Student
Rob is a PhD student who joined the group in October 2022. His research focuses on the study of 2D materials. In particular, the use of in-operando TEM to study memristor devices made from monolayers of Molybdenum Disulphide.
Rob obtained his integrated masters in Physics (MPhys) from the University of Warwick in 2022 during which he completed a project investigating the quantisation of electrical conductance in transition metal nanowires and organic molecules. He has also worked on improving chemical vapour deposition techniques for the growth of large-areas of high-quality graphene.
Email: Robert.Wells@warwick.ac.uk