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CHEPHYTSSU

Structural Engineering of 2D Atomic Planes towards Task-Specific, Freestanding Superstructures through Combined Physical-Chemical Pathway

Total Cost €

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EC-Contrib. €

0

Partnership

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 CHEPHYTSSU project word cloud

Explore the words cloud of the CHEPHYTSSU project. It provides you a very rough idea of what is the project "CHEPHYTSSU" about.

nanomaterials    interface    atomic    blank    performance    gas    surface    sequence    bonded    structural    electrode    placing    planes    chemistry    freestanding    physically    superstructures    engineering    hybrid    nitride    chemical    photovoltatic    steady    confined    functionalities    stability    professors    endows    structure    2d    graphene    oxides    unraveled    material    layers    mechanically    hydrophobic    physical    derivatives    supercapacitor    mesopores    consideration    boron    tailoring    water    amphiphilicity    engineer    mechanical    phililc    designed    storage    functionalized    individual    shape    urgent    amphiphilic    boomed    combined    hydrophilic    fundamentally    2004    conversion    create    novoselov    manner    flexible    selective    oriented    superstructure    purification    sustainable    co2    researches    hexagonal    relationship    environmental    materials    crystals    flexibility    library    outer    scalable    capture    nanoparticles    oxide    ordered    decade    units    inner    chalcogenides    metal    energy    layer    discovery    conductive    geim    technological    separation   

Project "CHEPHYTSSU" data sheet

The following table provides information about the project.

Coordinator
THE UNIVERSITY OF MANCHESTER 

Organization address
address: OXFORD ROAD
city: MANCHESTER
postcode: M13 9PL
website: www.manchester.ac.uk

contact info
title: n.a.
name: n.a.
surname: n.a.
function: n.a.
email: n.a.
telephone: n.a.
fax: n.a.

 Coordinator Country United Kingdom [UK]
 Project website https://www.graphene.manchester.ac.uk/about/ngi/
 Total cost 195˙454 €
 EC max contribution 195˙454 € (100%)
 Programme 1. H2020-EU.1.3.2. (Nurturing excellence by means of cross-border and cross-sector mobility)
 Code Call H2020-MSCA-IF-2015
 Funding Scheme MSCA-IF-EF-ST
 Starting year 2016
 Duration (year-month-day) from 2016-07-25   to  2018-07-24

 Partnership

Take a look of project's partnership.

# participants  country  role  EC contrib. [€] 
1    THE UNIVERSITY OF MANCHESTER UK (MANCHESTER) coordinator 195˙454.00

Map

 Project objective

The research on 2D nanomaterials has boomed since the discovery of graphene by professors Geim and Novoselov in 2004. After a decade of steady development, the available library of 2D crystals is highly rich including graphene derivatives, hexagonal boron nitride, many chalcogenides and various oxides. However, the technological advances and urgent environmental and sustainable energy issues such as CO2 capture and separation, energy storage and conversion (photovoltatic system, supercapacitor etc) call for advanced materials with not only properties of individual layers but also new functionalities. Particularly, researches on superstructures with unique properties such as amphiphilicity still remain blank. Physically, it is now possible to create such hybrid superstructures by placing different 2D crystals on top of each other in a designed sequence; while engineering the 2D units through a chemical way endows a high flexibility in surface chemistry tailoring and increase the mechanical stability due to the strongly bonded interface. Taking these into consideration, here we propose a combined chemical-physical pathway to engineer task-specific, mechanically freestanding superstructures based on 2D atomic planes in a simple and scalable manner. Three new material concepts are proposed including amphiphilic superstructure (hydrophilic outer layer and hydrophobic inner layer), gas selective superstructure (CO2-phililc outer layer and gas shape selective inner layer) and flexible superstructure with outer layer functionalized with metal oxide nanoparticles confined in ordered mesopores and inner conductive graphene. The obtained superstructures with these structural features will be oriented environmental and sustainable energy issues such as CO2 capture and separation, water purification and flexible electrode. Finally, structure-performance relationship will be unraveled fundamentally.

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