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CAM-RIG SIGNED

ConfocAl Microscopy and real-time Rheology of dynamIc hyroGels

Total Cost €

EC-Contrib. €

Partnership

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CAM-RIG project word cloud

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

quantitatively chain biocompatible charac niques ant gained mechanisms biomaterial forming understand relationships emergent motif variety 8 maximise paradigm determined hydrogel characterisation links property confocal polymeric driving self setup fundamental compatibilise dependant materials imaging resolution linked physical simultaneous strain science linking cb first microscopy shifts thinning entanglement tuning structure time decon teristics separation undertaken de tech supramolecular pioneer contributions exploited scribe networks hybrid dynamics types rig mechanical modalities interactions sustainable mediated cam introduce combination molecular volute healing lent relative cross excel hydrogels dynamic shear super composite attributed experimental precise rheological few combine formed

Project "CAM-RIG" data sheet

The following table provides information about the project.

Coordinator	THE CHANCELLOR MASTERS AND SCHOLARSOF THE UNIVERSITY OF CAMBRIDGE Organization address address: TRINITY LANE THE OLD SCHOOLS city: CAMBRIDGE postcode: CB2 1TN website: www.cam.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]
Total cost	2˙038˙120 €
EC max contribution	2˙038˙120 € (100%)
Programme	1. H2020-EU.1.1. (EXCELLENT SCIENCE - European Research Council (ERC))
Code Call	ERC-2016-COG
Funding Scheme	ERC-COG
Starting year	2017
Duration (year-month-day)	from 2017-05-01 to 2022-04-30

Partnership

Take a look of project's partnership.

#	participants	country	role	EC contrib. [€]
1	THE CHANCELLOR MASTERS AND SCHOLARSOF THE UNIVERSITY OF CAMBRIDGE THE CHANCELLOR MASTERS AND SCHOLARSOF THE UNIVERSITY OF CAMBRIDGE Organization address address: TRINITY LANE THE OLD SCHOOLS city: CAMBRIDGE postcode: CB2 1TN website: www.cam.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.	UK (CAMBRIDGE)	coordinator	2˙038˙120.00

Map

Project objective

Hydrogels cross-linked through supramolecular interactions are highly dependant on the dynamic charac- teristics of the physical cross-links. Few fundamental studies have been undertaken to quantitatively de- scribe structure-property relationships for these types of systems. Hydrogels formed from CB[8]-mediated supramolecular physical cross-linking mechanisms have gained significant interest on account of their excel- lent physical and mechanical properties such as self-healing and shear-thinning. This supramolecular motif has been further exploited to introduce and compatibilise a wide variety of different materials into hydrogel networks without phase separation, forming hybrid composite hydrogels attributed with unique and emergent properties. This proposal aims to pioneer the combination of several state-of-the-art characterisation tech- niques into an unique experimental setup (CAM-RIG), which will combine super-resolution and confocal microscopy imaging modalities with simultaneous strain-controlled rheological measurements to investigate fundamental structure-property relationships of these systems. For the first time it will be possible to decon- volute the molecular-level dynamics of the supramolecular physical cross-links from chain entanglement of the polymeric networks and understand their relative contributions on the resultant properties of the hydrogels. Using the fundamental insight gained, a set of key parameters will be determined to maximise the potential of supramolecular biocompatible hydrogels, driving paradigm shifts in sustainable science and biomaterial applications through the precise tuning of physical properties.

Publications

List of publications.
year	authors and title	journal	last update
2019	Magdalena OlesiÅ„ska, Guanglu Wu, Silvia GÃ³mez-Coca, Daniel AntÃ³n-GarcÃa, Istvan SzabÃ³, Edina Rosta, Oren A. Scherman Modular supramolecular dimerization of optically tunable extended aryl viologens published pages: 8806-8811, ISSN: 2041-6520, DOI: 10.1039/c9sc03057c	Chemical Science 10/38	2020-03-05
2020	Guanglu Wu, Youn Jue Bae, Magdalena OlesiÅ„ska, Daniel AntÃ³n-GarcÃa, IstvÃ¡n SzabÃ³, Edina Rosta, Michael R. Wasielewski, Oren A. Scherman Controlling the structure and photophysics of fluorophore dimers using multiple cucurbit[8]uril clampings published pages: 812-825, ISSN: 2041-6520, DOI: 10.1039/c9sc04587b	Chemical Science 11/3	2020-02-28

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