Chemistry PhD Studentship: Confinement of Lanthanide Molecular Nanomagnets in Carbon Nanotubes (2023)
What you get
This School-funded position covers Home tuition fees and a stipend at standard UKRI rates for 3.5 years. Applicants with overseas fee status would need to fund the difference between Home and International tuition fees (approx. £18k per year).
Type of award
Postgraduate Research
PhD project
In 2025, the data storage industry is expected to be worth over $118 billion. There is a pressing need for innovative ways of storing more data whilst reducing the physical size of the storage medium. The discovery of magnetic memory effects in magnetic molecules called ‘single-molecule magnets’ (SMMs) signposts routes to data storage devices with capacities surpassing those of classical technologies, using an approach that takes advantage of the quantum properties of molecules.
SMMs can be defined by the temperature at which they show magnetic hysteresis. The state-of-the-art is a family of dysprosium metallocene SMMs developed by the Layfield group, which include systems that show hysteresis above liquid nitrogen temperatures. The organometallic synthesis approach to SMMs provides a unique way of addressing magnetism at the level of single molecules. Incorporating these SMMs into nano-structured environments would be an important step towards functional magnetic materials. However, obstacles to achieving this are: (1) organometallic SMMs are air-sensitive, and (2) they are unstable on surfaces.
We propose to synthesize and encapsulate organometallic SMMs within single-walled carbon nanotubes (SWCNTs). The resulting SMM@SWCNT composites provide a bridge between the microscopic dimensions of the SMM and the bulk structure of the nanotubes, connecting the SMMs to the outside world and allowing them to be addressed individually by electric currents passed along the nanotube. Encapsulation of organometallic SMMs in the nanotube also provides a barrier to the atmosphere, enhancing their stability and preventing degradation by air.
The methodology for encapsulation will involve initial synthesis of new SMMs; key compounds for addressing this challenge are a new type of lanthanide-dinitrogen complex, the reactivity of which will also be investigated during the project. SWCNTs with varying diameters will then be prepared to determine to optimum cavity size for SMM incorporation, and then the SMMs will be absorbed into the SWCNTs through soaking experiments. We will characterize SMMs and the SMM@SWCNTs using crystallography, Raman spectroscopy and magnetometry. Under inert atmospheres, we will compare the properties of the bulk SMM and that of the composites, aiming to establish the impact of nanoconfinement on the magnetism. In parallel, we will expose SMM@SWCNT materials to air and compare their properties to those of the same materials under an inert atmosphere. Advanced characterization of the composites will then be accomplished using microscopy (AFM, SEM, TEM). Overall, the complementary chemistry-physics approach will give the student a thorough grounding in a variety of synthetic and analytical techniques.
Eligibility
Candidates will have a strong background in synthetic chemistry and will hold, or be expected graduate in 2023 with, at least a 2:1 MChem or MSci degree in chemistry. Candidates for whom English is not their first language will require an IELTS score of 6.5 overall, with not less than 6.0 in any section.
Deadline
28 February 2023 23:45How to apply
How to apply:
Please submit a formal application using the online system at www.sussex.ac.uk/study/phd/apply attaching a CV, degree transcripts and certificates, statement of interest and two academic references.
On the application system select Programme of Study – PhD Chemistry. Please ensure you state the project title under funding and include the proposed supervisor’s name where required.
Contact us
For enquiries about the application process, contact Emma Chorley: lifesci-rec@sussex.ac.uk
For enquiries about the project, contact supervisor: r.layfield@sussex.ac.uk
Availability
At level(s):
PG (research)
Application deadline:
28 February 2023 23:45 (GMT)
the deadline has now expired
Countries
The award is available to people from the following country: