TY  - JOUR
EP  - 873
SN  - 16609336
PB  - Trans Tech Publications Ltd
TI  - Effect of modified MIL-53 with multi-wall carbon nanotubes and nano fibers on CO2 adsorption
SP  - 870
N1  - cited By 19; Conference of 3rd International Conference on Process Engineering and Advanced Materials, ICPEAM 2014 ; Conference Date: 3 June 2014 Through 5 June 2014; Conference Code:114811
AV  - none
VL  - 625
UR  - https://www.scopus.com/inward/record.uri?eid=2-s2.0-84914147224&doi=10.4028%2fwww.scientific.net%2fAMM.625.870&partnerID=40&md5=55c6c5b98c8f488622dd822e8f5203b6
JF  - Applied Mechanics and Materials
A1  - Ullah, S.
A1  - Shariff, A.M.
A1  - Bustam, M.A.
A1  - Elkhalifah, A.E.I.
A1  - Murshid, G.
A1  - Riaz, N.
A1  - Shimekit, B.
Y1  - 2014///
KW  - Adsorption; Aromatic compounds; Carbon dioxide; Carbon nanofibers; Engineering research; Fourier transform infrared spectroscopy; Greenhouse gases; Nanotubes
KW  -  Alternative technologies; CO2 adsorption; Deformation vibrations; Different pressures; Fourier transform spectroscopy; MIL-53; MWCNTs; Substitution patterns
KW  -  Multiwalled carbon nanotubes (MWCN)
ID  - scholars4724
N2  - There is a growing need of counter assessing the increase of releases greenhouse gases such as carbon dioxide by researching an alternative technology that can help to reduce carbon dioxide content in atmosphere. This research work investigates the potential of MIL-53 as CO2 capture and storage candidate by conducting an experiment with different pressure between the synthesised and modified MIL-53. To investigate the effect of the Multi-wall carbon nano tubes (MWCNTs) and carbon nano fibers (CNFs) in MIL-53 towards CO2 adsorption performance. The synthesised samples were characterized by Fourier Transform Spectroscopy (FTIR) and Brunauer, Emmett and Teller (BET) techniques. A significant change is observed in the region of the aromatic deformation vibrations due to the different substitution patterns of the aromatic ring. BET surface area for MWCNT@MIL-53 is higher than CNF@MIL-53 and MIL-53. MWCNTs showed the adsorption of CO2 uptake is 0.3mmole-1/g at 100Kpa. © 2014 Trans Tech Publications, Switzerland.
ER  -