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May 16-17, 2019 | Prague, Czech Republic

2

nd

International Conference on

22

nd

International Conference on

Nanomaterials and Nanotechnology

Advanced Nanoscience and Nanotechnology

Joint Event

&

Journal of Materials Science and Nanotechnology | Volume 3

Mater Sci Nanotechnol, Volume 3

Graphdiyne: From foundation to application

Yuliang Li

Chinese Academy of Sciences, China

A

s a new all-carbon material, 2D graphdiyne has attracted

more and more attention due to its preparation under

low-temperature. Graphdiyne, consisting of layers containing

sp and sp

2

carbons, was proposed as one of the synthetically

approachable carbon allotropes. In graphdiyne, each benzene

ring is connected to six adjacent benzene rings through two

carbon–carbontriplebonds,resultinginaflatporousstructure

exhibiting high chemical stability and electrical conductivity.

Graphdiyne families have attracted great attention of many

structural, theoretical and synthetic scientists, due to their

promising electronic, optical and mechanical properties. The

physical properties of graphdiyne have also been systemically

investigated and the applications of graphdiyne in the fields

of energy, optoelectronics and catalysis have been achieved.

Speaker Biography

Yuliang Li is currently working as a professor at the Institute of

Chemistry, Chinese Academy of Sciences. He worked as a visiting scholar

and visiting professor at the Lab of Organic Chemistry at University of

Amsterdam in Netherlands, the Radiation Lab at University of Notre

Dame and the Department of Chemistry at the University of Hong Kong.

He has published more than 600 peer reviewed scientific articles and

invited reviews. His research interests lie in the fields on design and

synthesis of functional molecules, self-assembly methodologies of low

dimension and large size molecular aggregations structures, chemistry

of carbon and rich carbon, with particular focus on the design and

synthesis of photo-, electro-active molecular heterojunction materials

and nanoscale and nano-structural materials.

e:

ylli@iccas.ac.cn