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Details of Grant 

EPSRC Reference: EP/Z534274/1
Title: (2XPLO2D) Exploring 2D materials and their van der Waals assemblies
Principal Investigator: Geim, Professor Sir A
Other Investigators:
Researcher Co-Investigators:
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Department: Physics and Astronomy
Organisation: University of Manchester, The
Scheme: Frontier Res Guarantee TFS
Starts: 01 May 2025 Ends: 30 April 2030 Value (£): 2,176,209
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Summary on Grant Application Form
Research on two-dimensional (2D) materials and their van der Waals assemblies has expanded dramatically reaching beyond condensed matter physics and materials science, into such distant disciplines as life sciences and particle physics. Despite being relatively mature, the field shows no sign of withering. Even graphene, the most extensively studied 2D crystal, regularly reincarnates itself and, somewhat surprisingly, delivers breakthroughs every few years. For example, a wealth of new phenomena has recently been found in graphene superlattices whereas magic-angle twisted graphene has been celebrated for revealing exotic superconductivity and strongly correlated states. Devices made from high-quality graphene also provide fertile grounds for uncovering new low-dimensional and many-body physics.

The applicant has been involved in 2D materials research from the very beginning. Over the last decade, his group has continued to report high-profile results and even initiated several new subfields including graphene superlattices, electron hydrodynamics, water and ion permeation through graphene oxide laminates, molecular transport through angstrom-scale 2D capillaries and proton transport through monolayer crystals.

Based on the latest experiments and technological advances in the applicant's group, this proposal aims to explore the field of 2D materials further by pushing its boundaries on several fronts. Some of the proposed directions such as, for example, studies of the Planckian Dirac plasma are practically guaranteed to bring surprises and possibly germinate new subfields, while other directions (e.g., exponentially selective 2D membranes) are more adventurous. The unifying goal of all the proposed directions is to explore opportunities that remain abundant within the field of 2D materials and their assemblies, trying to find something new, exciting and potentially useful.
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Organisation Website: http://www.man.ac.uk