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Chemistry and Interface Control of Novel 2D-Pnictogen Nanomaterials

Objective

2D-PnictoChem aims at exploring the Chemistry of a novel class of graphene-like 2D layered
elemental materials of group 15, the pnictogens: P, As, Sb, and Bi. In the last few years, these materials
have taken the field of Materials Science by storm since they can outperform and/or complement graphene
properties. Their strongly layer-dependent unique properties range from semiconducting to metallic,
including high carrier mobilities, tunable bandgaps, strong spin-orbit coupling or transparency. However,
the Chemistry of pnictogens is still in its infancy, remaining largely unexplored. This is the niche that
2D-PnictoChem aims to fill. By mastering the interface chemistry, we will develop the assembly of 2Dpnictogens
in complex hybrid heterostructures for the first time. Success will rely on a cross-disciplinary
approach combining both Inorganic- and Organic Chemistry with Solid-state Physics, including: 1)
Synthetizing and exfoliating high quality ultra-thin layer pnictogens, providing reliable access down to
the monolayer limit. 2) Achieving their chemical functionalization via both non-covalent and covalent
approaches in order to tailor at will their properties, decipher reactivity patterns and enable controlled
doping avenues. 3) Developing hybrid architectures through a precise chemical control of the interface,
in order to promote unprecedented access to novel heterostructures. 4) Exploring novel applications
concepts achieving outstanding performances. These are all priorities in the European Union agenda
aimed at securing an affordable, clean energy future by developing more efficient hybrid systems for
batteries, electronic devices or applications in catalysis. The opportunity is unique to reduce Europe’s
dependence on external technology and the PI’s background is ideally suited to tackle these objectives,
counting as well on a multidisciplinary team of international collaborators.

Field of science

  • /natural sciences/chemical sciences/organic chemistry
  • /engineering and technology/nanotechnology/nano-materials/two-dimensional nanostructures/graphene
  • /engineering and technology/environmental engineering/energy and fuels/renewable energy
  • /natural sciences/physical sciences/condensed matter physics/solid-state physics
  • /engineering and technology/nanotechnology/nano-materials

Call for proposal

ERC-2018-STG
See other projects for this call

Funding Scheme

ERC-STG - Starting Grant

Host institution

UNIVERSITAT DE VALENCIA
Address
Avenida Blasco Ibanez 13
46010 Valencia
Spain
Activity type
Higher or Secondary Education Establishments
EU contribution
€ 1 499 419

Beneficiaries (1)

UNIVERSITAT DE VALENCIA
Spain
EU contribution
€ 1 499 419
Address
Avenida Blasco Ibanez 13
46010 Valencia
Activity type
Higher or Secondary Education Establishments