Location: White City Campus
Metal halide perovskite solar cells (PVSCs) have emerged as a ground-breaking photovoltaic technology owing to their extraordinary optoelectronic properties, low cost, and solution processability but their efficiencies and operational lifetimes lag behind commercial silicon-based solar cells. Organometallic chemistry-inspired interface functionalization provides excellent efficiencies and lifetimes to rival commercial solar cell devices (as reported in our recent paper: Science2022, 376, 416).
The project features the synthesis and evaluation of a range of novel organometallic compounds that combine the merits of organic and inorganic materials, and not only provides molecular flexibility and chemical Pb-O binding to reduce surface trap states, but also accelerates interfacial electron transfer via ferrocene. and thiophene units.
The role is to provide specialist expertise as a chemist and to perform a range of synthetic inorganic, organic and organometallic chemistry within the Department of Chemistry at Imperial College. New compounds will be fully characterized by a range of spectroscopies and cyclic voltammetry and then sent off for in-depth materials testing and evaluation via collaborators at City University, Hong Kong. These compounds are likely to involve metallocene and/or half-sandwich compounds.
You will be based within the Prof. Nick Long research group (https://www.imperial.ac.uk/people/n.long) in the Department of Chemistry at White City Campus.
Duties and responsibilities
The project is looking for someone with a range of synthetic chemistry (inorganic, organic, organometallic) and ideally, some insight into materials chemistry and in particular, perovskite solar cell devices. This role will encompass varied responsibilities, including work on a wide range of collaborative projects. You will develop new chemistry and organometallic-based compounds for perovskite solar cell devices. This work will involve collaborations with research groups across Imperial and City University, Hong Kong to drive the development and translation of organometallic-based perovskite solar cell devices.
- To use synthetic inorganic/organic chemistry expertise to develop new organometallic materials for use within perovskite-based solar cells.
- To fully characterize (via spectroscopy and cyclic voltammetry) the new organometallic compounds.
- To compile timely and high-quality reports of these studies.
- To attend and help organize group meetings, using them for laboratory safety advice & instruction, advice on experimental design and reporting of research results.
- As a member of a multi-disciplinary team, to perform, coordinate and supervise others (undergraduate and postgraduate students and postdoctoral scientists) in the development of new synthetic methodology and production of new compounds.
- Hold, or near completion of, a PhD in synthetic inorganic, organic or organometallic chemistry.
- Experience in synthetic organic and inorganic chemistry.
- Experience in organometallic chemistry.
- Experience in spectroscopic analysis and cyclic voltammetry.
- Practical experience within a research environment and publication in relevant and refereed journals.
This is a full time, fixed term position for 12 months, with the possibility of extension. You will be based at White City Campus.
Candidates who have not yet been officially awarded their PhD will be appointed as a Research Assistant within the salary range £38,194 – £41,388 per annum.
Our preferred method of application is online via our website (see below), quoting the relevance reference number.
Should you require any further details on the role please contact: Professor Nicholas Long (email@example.com)