SYNTHESIS OF NANOPOROUS NIO MATERIAL AS A CATALYST FOR METHYLENE BLUE REDUCTION
Methylene blue (MB) is a water environmental pollutant that is very dangerous for the environment and human health because of its highly toxic, carcinogenic and mutagenic properties. Currently, various methods have been attempted to reduce MB pollution. Several studies show that chemical reduc...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/81407 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Methylene blue (MB) is a water environmental pollutant that is very dangerous for
the environment and human health because of its highly toxic, carcinogenic and
mutagenic properties. Currently, various methods have been attempted to reduce
MB pollution. Several studies show that chemical reduction is a promising way to
reduce this pollution because the method is simple and low cost. A heterogeneous
catalyst is needed to assist the MB reduction process. Nickel oxide (NiO) is a
heterogeneous catalyst used in the MB reduction process. NiO in the form of
nanoparticles shows the best efficiency in selectivity, catalytic activity, and stability
as a heterogeneous catalyst. However, NiO nanoparticles have the disadvantage that
they are difficult to separate from the mixture because of the small size.
Consequently, they cannot be used repeatedly. Recently, nanoporous materials have
attracted much attention, especially for catalytic applications. FDU-12 is a
nanoporous material with a fairly wide pore diameter, large surface area, and high
pore volume and is easily separated in mixtures. In this research, we developed a
nanoporous NiO catalyst via the nanocasting method for the MB reduction reaction.
In this case, FDU-12 is used as the printing agent. The scope of the research is
limited to nanoporous NiO synthesized from nickel nitrate impregnated with the
mesoporous material FDU-12 as a molding agent. Several characterizations such as
TEM, XRD, FTIR and UV-Vis have been carried out to analyze the catalyst and its
activity. The characterization results show that the pore size of FDU-12 is 10 nm
and the nanoporous NiO particle size is 7 nm. The XRD result show that
nanoporous NiO is evidenced at peaks 2? = 37.31o, 43.39o, and 62.91o. Based on
the catalytic test of nanoporous NiO in the MB reduction reaction, a conversion
percentage of 86.8% was obtained. This result is 2 times greater than the
%conversion value for conventional NiO (40.5%). In addition, the kinetic
parameters obtained are as follows; kobs = 0.07 min-1, Eobs = 0.18 kJ/mol, ?H‡ =
17.78 kJ/mol, ?S‡ = -0.187 J/mol.K, and ?G‡ = 73.64 kJ/mol. The MB reduction
catalysis reaction mechanism in this study follows the Langmuir-Hinshelwood
reaction mechanism. This research can provide valuable insights in the
development of efficient catalysts to overcome the problem of environmental
pollution by textile dye waste. |
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