Volume 7, Issue 6(Suppl)

J Chromatogr Sep Tech

ISSN: 2157-7064 JCGST, an open access journal

Page 41

Notes:

Separation Techniques 2016

September 26-28, 2016

conferenceseries

.com

Separation Techniques

September 26-28, 2016 Valencia, Spain

2

nd

International Conference and Expo on

2D crystal-based membranes for photocatalysis and separation

Yuyoung Shin, Kai Ge Zhou, Eric Prestat, Sarah J Haigh

and

Cinzia Casiraghi

University of Manchester, UK

T

he isolation of graphene has unveiled a wide range of novel 2-Dimensional (2D) materials with outstanding properties.

Liquid-phase exfoliation (LPE) is a simple technique for production of 2D-crystal dispersions, which can be used to

form coatings and membranes. 2D crystal-based membranes have already shown interesting properties, such as selective

permeation of water, opening the possibility of using these membranes for gas or liquid separation. In this talk, we give two

examples of 2D crystal-based membranes. The first membrane is obtained by LPE of graphitic carbon nitride (g-C

3

N

4

), which

has been shown to be an efficient photo-catalyst for many reactions under visible light. Photo-degradation studies show that

the membranes are very efficient in the degradation of several dyes. This is attributed to the membrane structure: As the

catalyst is a porous laminate, the reactant can flow through the pores of the membrane and because the space between the

g-C

3

N

4

nanosheets is comparable to the size of the dyes, the probability of the reactants to be close to the catalyst is enhanced,

making the reaction very efficient. The second type of 2D-crystal membrane is prepared by mixing LPE graphene with a

polymer of intrinsic microporosity (PIM-1). Graphene is expected to improve membrane permeability, control over diffusion

selectivity and to reduce the polymer ageing. Here we show characterization of those membranes by Raman spectroscopy and

transmission electron microscopy and we show preliminary results on CO

2

permeability.

Biography

Yuyoung Shin has obtained her BSc in Chemistry from University of Sussex in 2010 and her MPhil in Chemistry from University of Cambridge in 2012, working with

Dr Mark Miller on thermodynamics of charged nano-droplets. She has completed her PhD under the guidance of Prof. Cinzia Casiraghi at University of Manchester,

working on synthesis and characterization of graphene-based membranes. During her studies, she contributed to a number of publications and recently had two

publications on synthesis and characterization of graphene-based membranes.

yuyoung.shin@manchester.ac.uk

Yuyoung Shin et al., J Chromatogr Sep Tech 2016, 7:6(Suppl)

http://dx.doi.org/10.4172/2157-7064.C1.019