Postdoctoral research associate in high temperature carbon nanotube synthesis

Postdoctoral research associate in high temperature carbon nanotube synthesis

Chemical Engineering, Imperial College London

ABOUT THE ROLE:
The Department of Chemical Engineering is seeking a Research Associate to investigate the science and engineering of electrochemical carbon nanotube (CNT) synthesis from CO2 in molten metal oxide/carbonate systems.

A molten Li2O/Li2CO3 electrolyte at 750 – 850 °C can absorb CO2 exothermically via: Li2O + CO2 ⟶ Li2CO3. The Li2CO3 can subsequently be electrochemically reacted to form carbon and oxygen, while Li2O is regenerated: Li2CO3 ⟶ C + O2 + Li2O.
Simultaneous capture, conversion and valorisation of CO2 (captured either from the air or from flue gas) into carbon nanotubes (CNTs) via molten carbonate electrolysis in a single device has many potential advantages over other CO2 utilisation pathways. It should enable in situ emissions processing with a low energy penalty, while generating a very high-value and chemically stable product.

Carbon nanotubes are hollow cylinders formed from one or more layers of graphene. They have high aspect ratios with nanometre-size diameters and lengths up to several centimetres. Applications are currently limited by the high cost of their conventional synthesis by chemical vapour deposition, but CNTs formed from CO2 as a reactant are likely to accelerate market growth.

WHAT YOU WOULD BE DOING:
The project has several defined objectives, which build on research currently being conducted in the lab of A. Hankin:

1. Collection of experimental kinetic data for CNT electrodeposition over a range of applied electrode potentials and CO2 supply rates. This will facilitate the development of an in-depth understanding of how the kinetics of carbon electrodeposition may be controlled to achieve high selectivity in one type of carbon nanostructure (e.g. nanotube, nanofiber or nano-onion, hollow vs filled etc). The products will need to be characterised ex situ using a variety of analytical techniques.
2. In situ quantification of CNT mass accumulation during electrolysis, using a high temperature-resistant crystal microbalance electrode – this is a novel method for in situ tracking of the nanotube growth process, which competes with the evolution of CO gas.
3. Development of a thermo-electro-kinetic model, describing the relationship between the rate of CNT deposition and experimental variables, for input into a Multiphysics model for predicting up-scaled system performance.
4. Testing of the synthesised carbon products in new Li- (or even Na-) battery electrodes. This will facilitate an evaluation and understanding of the effect of different carbon nanostructures on lithium-ion battery anode and cathode performances.

WHAT WE ARE LOOKING FOR:

• A PhD in electrochemistry
• Practical experience of carrying out electrochemical experiments
• Experience in designing and constructing experimental apparatus for your own research
• Ability to think critically and independently and to lead your own work programme
• Ability to direct the work of supervised students (UG / MSc / PhD level)
• The ability to publish research articles that showcase scholarship and in-depth data analysis

*Candidates who have not yet been officially awarded their PhD will be appointed as Research Assistant within the salary range £43,003– £46,297 per annum.

WHAT WE CAN OFFER YOU:

• The opportunity to continue your career at a world-leading institution and be part of our mission to continue science for humanity.
• Grow your career: gain access to Imperial’s sector-leading dedicated career support for researchers as well as opportunities for promotion and progression.
• Sector-leading salary and remuneration package (including 39 days off a year and generous pension schemes).
• Be part of a diverse, inclusive and collaborative work culture with various staff networks and resources to support your personal and professional wellbeing.

FURTHER INFORMATION:
The post is available for 24 months. Starting salary is determined on experience. The post is based in the Department of Chemical Engineering at Imperial College London (South Kensington Campus).

If you require any further details about the role, please contact: Anna Hankin – anna.hankin@imperial.ac.uk

To apply, please visit

https://www.imperial.ac.uk/jobs/search-jobs/description/index.php?jobId=23237&jobTitle=Research+Associate+in+high+temperature+carbon+nanotube+synthesis

You will find this vacancy by searching either the position title or job number: ENG03453.

Closing date: Midnight on 26th March 2025

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