Page 44

Notes:

conferenceseries

.com

Volume 6

Research & Reviews: Journal of Material Sciences

Advanced Materials 2018

September 19-21, 2018

September 19-21, 2018 Tokyo, Japan

22

nd

International Conference on

Advanced Materials and Nanotechnology

Jihyun Bae et al., Shi-Ru et al., Res. Rev. J Mat. Sci. 2018, Volume 6

DOI: 10.4172/2321-6212-C4-024

Preparationofmetal-complexedmesoporous carbonmembrane usingmonodispersed silicananoparticles

Jihyun Bae

1

, Seongho Choi

1

, Kyongeun Yu

2

, Seungho Lee

2

and Woonjung Kim

1

1

Hannam University, Republic of Korea

2

Chemtree Co. Ltd, Republic of Korea

M

esoporous materials have been applied in various fields such as catalysts, supports for nanomaterials, adsorption and

separation, and sensors. One of the important points for some applications is to control the pore size or the pore structure

depending on the purpose. It is necessary to control the size of the pores according to the size of the molecules or substances

entering the pores of the mesoporous material. Also, it is very important that the change of the material constituting of the

skeleton and the properties of the mesoporous material depending on the purpose of use. The mesoporous carbon material

is expected to be applied in fields such as electrode materials of a fuel cell because it has a surface area of 1,000 to 2,000 m2/g,

excellent thermal stability, absorption and performance as a carrier. Especially, mesoporous materials are mostly utilized as

catalysts or adsorbents because they have uniform nanopores. Despite its many advantages, the carbon material is weak in

strength depending on the orientation and is easily cracked and has a low applicability in general. In this study, a mesoporous

carbon membrane based on silica nanoparticle was prepared. Various synthesis parameters were systematically investigated

to study the effects on the size and the size distribution of silica nanoparticles. The silica nanoparticles were pressurized into

a disk and then calcinated to obtain mesoporous carbon membrane. Then the membrane was chemically treated with COOH

group, and Ag was complexed on the surface of the membrane. In addition, our study suggests a new method to fix the metal

to the surface of the mesoporous carbon membrane as well as to increase the strength of them.

Biography

Jihyun Bae has earned his undergraduate degree in Chemistry at Hannam University, Republic of Korea in 2017. Presently he is a graduate student of Chemistry

at the same university.

jbae0723@gmail.com