dorothy duffy ucl

tel: +44 (0)20 7594 7252 Modern computers can be used to simulate experiments on materials that would either be difficult or expensive to study in the laboratory.


Soluble additives can be used to modify morphologies, size and size distributions or, alternatively, will ultimately enable us to make informed choices about additives that will. Rev B 92 134110 (2015), MSci project supervisionChair of the Physics and Astronomy PGT exam board, Leader of Thermal and Condensed Matter Strand, Institutional Research Information Service, Please report any queries concerning the funding data grouped in the Condens. "Internally Disbursed" The next exciting steps will be linking our technologies into NHS systems, our new collaboration with the Wellcome Trust Africa Centre and an ethics study to responsibly develop our technologies. joined UCL as a senior research associate in 2002 and was appointed to a Their current focus is on modelling the response of metals and semiconductors to radiation that excites electrons, such as lasers and energetic ions, and on modelling crystallisation from solution. I have also recently been on secondment to the Government Office for Science, as part of the RCUK (now UKRI) Policy Internship Scheme.

Research: Modern computers can be used to simulate experiments on materials that would either be difficult or expensive to study in the laboratory. Supervising project students, PhD students and early career researchers. I was appointed as a lecturer at UCL in April 2005,promoted to Reader in 2009 and to Professor in 2015. deliver crystals with the desired properties. Improving the functional control of aged ferroelectrics using insights from atomistic modeling Phys. The calculation of the time evolution of the diffraction peak intensity of a gold nanofilm induced by fs laser irradiation gave excellent agreement with UED experiments. My major goal is that these innovations elicit a step-change in medicine and have real clinical impact. Imperial College - Materials. So I definitely enjoy getting to work alongside a great group of people in the lab everyday. This first postdoc period provided her with advanced practical experience in chemical synthesis, which proved very valuable for her later research in nanotechnology. 29, 285303 (2017), 5. sections named Catching an infectious disease is, unfortunately, a pretty nasty way to observe fascinating nano-scale interactions. Career highlight: I gave an invited lecture at the Royal Institution about the possibility that smell is a quantum effect. What do you enjoy most about your work? The aim is to generate a new framework for understanding additive-directed crystal growth, which will ultimately enable us to make informed choices about additives and reaction conditions that will deliver crystals with the desired properties. Modelling radiation effects in materials, with a particular focus on the effects of excited electrons. Modelling radiation effects in materials, with a particular focus on the effects of excited electrons. But I would also say that my research group, and the whole of the i-sense IRC, are very supportive which has made even the challenging times of my PhD easier! Lett. PhD student in the i-sense EPSRC IRC McKendry group, London Centre for Nanotechnology. Modelling ferroelectrics: We use both classical molecular dynamics, with shell model force fields, and DFT to calculate the properties of domain walls in ferroelectric materials such as PTO and PZT. those that rely on antigen-antibody binding). In 1999, she undertook postdoctoral work in medicinal chemistry at Aston University and developed a method to synthesise new cell membrane-permeable fluorescent analogues of the cyclic nucleotide second messengers, cAMP and cGMP, as sensors to study cellular mechanisms of memory storage. Research: My research aims to harness the power of nanotechnology, telecommunications and big data to fight infectious disease. incredibly diverse, which is part of the fun, but the common thread running through them is that the important events are defined by physics we do not yet completely understand. In addition to performing research, I also enjoy speaking about the advantages of taking on STEM subjects and the rewards of research. PhD or career highlight: In 2016, I had the chance to do an internship at LSHTM which opened my mind to the importance of research done in tropical medicine and infectious diseases. Dorothy Duffy Professor at University College London London, United Kingdom Research Wednesday 23rd March 2016, 4pm, UCL (Harrie Massey LT) I work closely with clinicians at UCL Partners to ensure we develop technologies that meet their needs and the needs of the patient. the diffusional properties, charge distribution, binding propensities contributes to understanding and consequently exploiting these properties in bio-sensor design. Dorothy M. Duffy; Department of Physics and Astronomy and London Centre for Nanotechnology, University College London, Gower Street, London WC1E 6BT, UK. profile page to: I completed my PhD in the Condensed Matter theory group at Imperial College in 1981 and I then joined Reading University as a Post Doc funded by AEA Technology Harwell. As part of the LCN’s Athena SWAN initiative, and as a commitment to diversity in STEMM, we shine a spotlight on our fantastic female researchers, who are pushing the frontiers of nanoscience for healthcare, information technology and the environment. London - WC1E 6BT, http://www.ucl.ac.uk/finance/research/post_award/post_award_contacts.php, https://www.ucl.ac.uk/hr/helpdesk/helpdesk_web_form.php, Professor of Nanomaterials and Royal Society Research Fellow, Reader, Royal Society University Reserch Fellow, Lecturer, Royal Society University Research Fellow, Chemistry and Advanced Materials Research Institute, Pharmaceutical Sciences Research Institute. Chapman et al. The award of my MRC fellowship. As my work is computer-based this ‘dry-lab’ approach means the microscope is metaphorical; I look at the atomistic and electronic make-up of molecules that do fascinating and important things in biology. Certain additives can also become incorporated within crystals, providing a novel route for modifying properties and functionality. Modelling biominerals, organic inorganic interfaces and crystallisation. Rev B 92 134110 (2015), Chair of the Physics and Astronomy PGT exam board, Leader of Thermal and Condensed Matter Strand. Postdoctoral Research Associate in the i-sense EPSRC IRC McKendry group, London Centre for Nanotechnology. Falling ill with the flu for example - the invading virus attacks and releases 'biomarkers', i.e. One of my past career highlights was my research on a strange virus called XMRV, which was thought to be a novel human virus, until our work showed it to be an artefact due to contamination! Your can find your Research Finance Administrator at. I was recently awarded an MRC/UKRI Rutherford Innovation Fellowship to apply novel methods to understand how the complex, knotted and tangled DNA in each of our cells interacts with, and is maintained by, our molecular machinery.

Recent highlights include metadynamics simulations of calcite crystallization on self-assembled monolayers and modelling twinning deformation in calcite.

Professor in Physics, London Centre for Nanotechnology and Department of Physics and Astronomy, UCL. profile page to: UCL Healthcare Biomagnetic and Nanomaterials Laboratories, UCL Principal Supervisor,UCL Subsidiary Supervisor, Please report any queries concerning the data shown on this page During the fellowship I modelled the magnetic properties of supported metal nanoclusters. The calculation of the time evolution of the diffraction peak intensity of a gold nanofilm induced by fs laser irradiation gave excellent agreement with UED experiments. My research project aims at developing a point-of-care diagnostic for Ebola. Research: I am a PhD student working on using atomic force microscopy (AFM) to detect and investigate the action of antimicrobials. Since then I have applied modelling techniques to a diverse range of systems and processes, from wax inhibition at Warwick University to organic-inorganic interfaces at UCL. The AFM imaging work that I do can very satisfying when you get all the parameters just right and produce exiting images of bacteria - not everyone gets to take pictures for their research!
We will exploit this methodology to reveal the mechanism-of-action of topoisomerases; a major target for antibiotic and anti-cancer therapeutics. UCL - Chemistry. Research: I recently joined LCN and I am working in the i-sense group, supervised by Professor Rachel McKendry. UCL - Physics & Astronomy. The development of a set of electronic temperature dependent interatomic potentials for silicon and the implementation of these potentials in the LAMMPS MD code. These systems may seem (and are!) During the fellowship I modelled the magnetic properties of supported metal nanoclusters. © 2020 Digitell, Inc. All Rights Reserved Privacy Center × Shopping Cart improve properties, fabricate nanoscale devices and dope semiconductors. Rev. She leads a very dynamic research group conducting cutting edge interdisciplinary research on the design and synthesis of nanomaterials for biomedical applications. or My project capitalises on the novel technologies owned by the i-sense group. Matt.

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