Prof Neil Wilson
PhD position available for 2025 start:
Probing two-dimensional ferroic heterostructures.
Please contact me if you are interested.
Research Interests
Professor in condensed matter physics, Microscopy group, Department of Physics, University of Warwick
Current Research
My interest is in correlating atomic and mesoscale structure with physical properties in nanomaterials, with an emphasis on quantitative measurements. My current research is mainly on the structural, mechanical, electronic and electrical properties of graphene and other two dimensional materials (2DMs). I am a fan of microARPES, particularly to reveal the electronic structure of 2DMs and 2D heterostructures (collaboration with the Cobden and Xu groups at the University of Washington at Seattle, and the group of Professor Roman Gorbachev at the National Graphene Institute at Manchester University) and this closely links to theory work at Warwick and elsewhere. I have worked on chemically modified graphene in collaboration with Dr Jon Rourke (Chemistry) and chemical vapour deposition of graphene and hBN (with Dr Gavin Bell). I have developed graphene and graphene oxide based TEM supports for high resolution imaging of molecular and macromolecular species (this has led to the graphene oxide TEM grids sold by EMResolutions). I have an interest in molecular microscopy on graphene and have worked with Dr James Covington on graphene based gas sensors. I also specialise in scanning probe based measurements and this crosses over into work on other carbon based materials such as diamond and polymeric and molecular semiconductors.
Selected Publications
Our group publication page is usually up to date. I am listed on Google Scholar, and on ORCiD. Selected highlights:
- Conduction Band Replicas in a 2D Moiré Semiconductor Heterobilayer
AJ Graham, H Park, PV Nguyen, J Nunn, V Kandyba, M Cattelan, ... and NR WilsonNano Letters 24 (17), 5117-5124 2024
- ARPES signatures of few-layer twistronic graphenes
JE Nunn, A McEllistrim, A Weston, A Garcia-Ruiz, MD Watson, ... and NR WilsonNano Letters 23 (11), 5201-5208 2023
- From graphene to graphene oxide: the importance of extended topological defects
AJ Marsden, M Skilbeck, M Healey, HR Thomas, M Walker, RS Edwards, ... and NR WilsonPhysical Chemistry Chemical Physics 24 (4), 2318-2331 2022
- Field-dependent band structure measurements in two-dimensional heterostructures
PV Nguyen, NC Teutsch, NP Wilson, J Kahn, X Xia, AJ Graham, ... and NR WilsonNano Letters 21 (24), 10532-10537 2021
- Ghost anti-crossings caused by interlayer umklapp hybridization of bands in 2D heterostructures
AJ Graham, J Zultak, MJ Hamer, V Zolyomi, S Magorrian, A Barinov, ... and NR Wilson2D Materials 8 (1), 015016 2020
- Visualizing electrostatic gating effects in two-dimensional heterostructures
PV Nguyen, NC Teutsch, NP Wilson, J Kahn, X Xia, V Kandyba, A Barinov, ... and NR Wilson
- Indirect to Direct Gap Crossover in Two-Dimensional InSe Revealed by Angle-Resolved Photoemission Spectroscopy
MJ Hamer, J Zultak, AV Tyurnina, V Zólyomi, D Terry, A Barinov, A Garner, ... and NR WilsonACS nano 13 (2), 2136-2142 2019
- Determination of band offsets, hybridization, and exciton binding in 2D semiconductor heterostructures
NR Wilson, PV Nguyen, K Seyler, P Rivera, AJ Marsden, ZPL Laker, ...Science advances 3 (2), e1601832 2017
- Effect of the orientation of graphene-based nanoplatelets upon the Young's modulus of nanocomposites
Z Li, RJ Young, NR Wilson, IA Kinloch, C Vallés, Z LiComposites Science and Technology 123, 125-133
- Growth of Large Crystalline Grains of Vanadyl‐Phthalocyanine without Epitaxy on Graphene
AJ Marsden, LA Rochford, D Wood, AJ Ramadan, ZPL Laker, TS Jones, ... and NR WilsonAdvanced Functional Materials 26 (8), 1188-1196
- van der Waals epitaxy of monolayer hexagonal boron nitride on copper foil: growth, crystallography and electronic band structure
GE Wood, AJ Marsden, JJ Mudd, M Walker, M Asensio, J Avila, K Chen, ... and NR Wilson
2D Materials 2 (2), 025003 2015 - Quantitative Nanoscale Mapping with Temperature Dependence of the Mechanical and Electrical Properties of Poly (3-Hexythiophene) by Conductive Atomic Force Microscopy
D Wood, I Hancox, TS Jones, and NR Wilson
The Journal of Physical Chemistry C 119 (21), 11459-11467 2015 - Sulfur‐Functionalized Graphene Oxide by Epoxide Ring‐Opening
HR Thomas, AJ Marsden, M Walker, NR Wilson, and JP Rourke
Angewandte Chemie International Edition 53 (29), 7613-7618 2014 - Weak mismatch epitaxy and structural feedback in graphene growth on copper foil
NR Wilson, AJ Marsden, M Saghir, CJ Bromley, R Schaub, G Costantini, ... and NR Wilson
Nano Research 6 (2), 99-112 2013 - A simple approach to characterizing block copolymer assemblies: graphene oxide supports for high contrast multi-technique imaging
JP Patterson, AM Sanchez, N Petzetakis, TP Smart, TH Epps III, I Portman, ... and NR Wilson
Soft Matter 8 (12), 3322-3328 2012 - The real graphene oxide revealed: stripping the oxidative debris from the graphene‐like sheets
JP Rourke, PA Pandey, JJ Moore, M Bates, IA Kinloch, RJ Young, and NR Wilson
Angewandte Chemie 123 (14), 3231-3235 2011 - Physical vapor deposition of metal nanoparticles on chemically modified graphene: observations on metal–graphene interactions
PA Pandey, GR Bell, JP Rourke, AM Sanchez, MD Elkin, BJ Hickey, ... and NR Wilson
Small 7 (22), 3202-3210 2010 - Graphene oxide: structural analysis and application as a highly transparent support for electron microscopy
NR Wilson, PA Pandey, R Beanland, RJ Young, IA Kinloch, L Gong, Z Liu, ...
ACS Nano 3 (9), 2547-2556 2009 - Carbon nanotube tips for atomic force microscopy
NR Wilson, JV Macpherson
Nature Nanotechnology 4 (8), 483-491 2009
Group
I currently supervise 3 graduate students: Mujahid Shiffa (PhD 2021 start), Yogal Prasad Ghimirey (2023 start), and Vaishnavi Ravi (MScR jointly with Alex Robertson). Past PhD and MPhys students include Priyanka Pandey (PhD, 2008-2012), Grace Wood (MScR, 2013-2014, passed with distinction), Alex Marsden (PhD, 2011-2015), Zac Laker (2014-2018), Natalie Teutsch (2015-2019), Xue Xia (2016-2020), Abi Graham (2018-2022), James Nunn (2020-2024), Matteo Borghi (2019-2024), and Laxman Nagi-Reddy (2020-2024). I jointly supervised Mark Skilbeck (2012-2016) with Dr Rachel Edwards, Ultrasound group, and Dawn Wood (2012-2016) with Professor Tim Jones, Chemistry department. I have supervised or co-supervised many summer project students and final year project students.
If you are interested in working with me please contact me!
Background
I graduated from the Natural Sciences Tripos at Pembroke College Cambridge in 1999. I won a Thouron scholarship to study for a Masters in Physics at the University of Pennsylvania, working with Professors Charlie Kane and Gene Mele on the theory behind STM images of individual quantum states in short carbon nanotubes. I returned to the UK in 2000 for a PhD with Boris Muzykantskii and David Cobden. I completed my PhD in the Physics Department of the University of Warwick in 2004, graduating in 2005. My PhD thesis on "Electronic Transport in Single Wall Carbon Nanotubes, and their Application as Scanning Probe Microscopy tips" is available here. I stayed in Warwick to follow-up on the work started in my thesis, doing three years on postdoctoral projects with Professor Julie Macpherson in the Warwick Electrochemistry and Interfaces Group mainly on the electrical and electrochemical properties of single walled carbon nanotubes. In October 2007 I was appointed as an Assistant Professor in the Department of Physics at Warwick University, in 2012 I was made Associate Professor and in 2019 I was made Professor.
I was a member of the Institute of Physics science advisory committee, of the scanning probe microscopy section and of the RMS outreach committee of the Royal Microscopical Society (RMS), a winner of the RMS mid-career scientific achievement award in 2024, and of the Diamond Light Source i05 peer review panel. I am currently on the IOP 2D Materials editorial board.
Teaching and administration
This year I am teaching the first year PX157 Electricity and Magnetism course, tutorials, the exam coordinator for Physics, the microscopy courses, and final year projects.
Outreach
We regularly demonstrate the microscopy facilities to school children, and I have prepared lectures on nanotechnology and microscopy suitable for presenting at schools or to the general public. If you would like more information please contact me. I also have an interest in the Art of Science - the intrinsic beauty of the physical world expressed through visual representations. Nanostructures in particular can have startling and surprising elegance in form. These 'art' works can also spark the imagination and help in the engagement with science. I will add some examples from my own work (click here), along with explanations of how they can be used to express important scientific concepts. In 2010 I helped organise the Snapshots of Science, see the website for more information. I was a member of the RMS Outreach committee.