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Research project

2D Layered Transition Metal Dichalcogenide Semiconductors via Non-Aqueous Electrodeposition

Project overview

Transition metal dichalcogenides (TMDCs) are inorganic materials of formula ME2 (M = metal; E = chalcogen = sulfur, selenium or tellurium). They form 2-dimensional layered hexagonal structures related to that of cadmium diiodide, in which the metal-chalcogen bonding within the layers is very strong, whilst that between the layers is much weaker (van der Waals interactions) - i.e. inorganic analogues of graphite. They form a class of extremely important functional semiconductors, and by changing the metal or chalcogen type, the semiconductor band gap can be tuned, making them useful for a wide range of applications. As a result of both their structures and their semiconducting properties, these materials are widely considered to have the potential to revolutionalise next generation electronics, e.g. allowing the mass manufacture of 2D nanotransistors, leading to more powerful and faster devices.

Staff

Lead researchers

Professor Gill Reid

PROFESSOR OF CHEMISTRY
Research interests
  • Synthetic inorganic chemistry
  • Design and synthesis of new macrocyclic and multidentate ligands involving donor atoms from Groups 15 (P, As, Sb, Bi) and 16 (S, Se, Te)
  • Coordination chemistry with s-, p-, d- and f-block metal ions
Connect with Gill

Email: G.Reid@soton.ac.uk

Other researchers

Professor Andrew Hector

Head of School
Research interests
  • Materials synthesis, including metal nitrides, thin film materials, sol-gel and solvothermal processes and porous structures.
  • Materials characterisation – powder and thin film diffraction, microscopy and spectroscopy techniques.
  • Electrochemistry, including charge storage in battery and supercapacitor type cells, and electrodeposition of various materials. 
Connect with Andrew

Email: A.L.Hector@soton.ac.uk

Professor Kees De Groot

Professor
Research interests
  • Radio-Frequency and Microwave Devices
  • 2 dimensional Transition Metal Dichalcogenides  Transistors
  • Smart Radiative Cooling and RF control of smart glass using metal oxides such as Al-doped ZnO and W-doped VO2
Connect with Kees

Email: chdg@southampton.ac.uk

Professor Philip Bartlett

Professor of Chemistry
Research interests
  • Electrochemistry
  • Bioelectrochemistry
  • Templated electrodeposition of nanomaterials
Connect with Philip

Email: P.N.Bartlett@soton.ac.uk

Research outputs

Electrodeposited WS2 monolayers on patterned graphene
Yasir Noori, Shibin Thomas, Sami Ramadan, Victoria Greenacre, Nema Abdelazim, Yisong Han, J Zhang, Richard Beanland, Andrew L. Hector, Norbert Klein, Gillian Reid, Philip N. Bartlett & Kees De Groot, 2021, 2D Materials, 9(1)
DOI: 10.1088/2053-1583/ac3dd6
Type: article
Tungsten disulfide thin films via electrodeposition from a single source precursor
Shibin Thomas, Victoria Greenacre, Danielle E. Smith, Yasir Noori, Nema Abdelazim, Andrew L. Hector, Kees De Groot, William Levason, Philip N. Bartlett & Gillian Reid, 2021, ChemComm, 57(79), 10194-10197
DOI: 10.1039/D1CC03297F
Type: article
Pyramidal dicationic Ge(II) complexes with homoleptic neutral pnictine coordination: a combined experimental and density functional theory study
Rhys, Paul King, Victoria Greenacre, William Levason, John Dyke & Gillian Reid, 2021, Inorganic Chemistry, 60(16), 12100–12108
DOI: 10.1021/acs.inorgchem.1c01308
Type: article
Lateral growth of MoS2 2D material semiconductors over an insulator via electrodeposition
Yasir Noori, Nema Abdelazim, Shibin Thomas, Victoria Greenacre, Yisong Han, Danielle E. Smith, Giacomo M Piana, Nikolay Zhelev, Andrew L. Hector, Richard Beanland, Gillian Reid, Philip N. Bartlett & Kees De Groot, 2021, Advanced Electronic Materials, 7(9), 1-8
DOI: 10.1002/aelm.202100419
Type: article
The reactions of MoOCl4 with neutral Group 15 and 16 ligands and a re-investigation of some N-donor ligand complexes of MoOCl3
Victoria Greenacre, William Levason, James Powell, Gillian Reid & Danielle E. Smith, 2021, Polyhedron, 204
DOI: 10.1016/j.poly.2021.115262
Type: article