HYDROGEN TRANSFER REACTION OF FURFURALDEHYDE TO FURFURYL ALCOHOL CATALYZED BY NI(II)-PHENOXYIMINE
Furfuraldehyde (FALD) is one of the promising chemicals from biomass lignocellulosic. FALD has a various derivatives that have many uses in vehicle fuel and raw materials of the chemical industry. The hydrogenation of FALD in the aldehyde group can produce furfuryl alcohol (FOL). FOL is an imp...
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id-itb.:828632024-07-22T11:42:32ZHYDROGEN TRANSFER REACTION OF FURFURALDEHYDE TO FURFURYL ALCOHOL CATALYZED BY NI(II)-PHENOXYIMINE Farkhanudin, Ahmad Kimia Indonesia Final Project furfuryl alcohol, hydrogenation of furfuraldehyde, hydrogen transfer reaction, nickel-phenoxyimine. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/82863 Furfuraldehyde (FALD) is one of the promising chemicals from biomass lignocellulosic. FALD has a various derivatives that have many uses in vehicle fuel and raw materials of the chemical industry. The hydrogenation of FALD in the aldehyde group can produce furfuryl alcohol (FOL). FOL is an important material to make other FALD derivatives with value added. Hydrogenation of FALD to FOL generally uses pressurized hydrogen gas (20- 100 bar) and is catalyzed by platinum group metals. The catalysis reaction using pressurized hydrogen gas is dangerous and requires complicated of infrastructure and processes. The platinum group metals are quite expensive due to their low abundance. This research studied the catalytic performance of Ni(II)-phenoxyimine complex in the transfer hydrogen reaction of FALD to FOL with the alcohol as a hydrogen source. The ligand is synthesized by a reaction of 2-hydroxybenzaldehyde and aniline derivatives. The phenoxyimine ligand has been reacted with nickel chloride salt to produce a Ni(II)- phenoxyimine complexes. The ligand and complex has been characterized by FTIR, PXRD, H-NMR, and MS. The product of the hydrogenation reaction is observed by gas chromatography (GC). The selectivity of hydrogen transfer reaction FAL to FAL in this research achieved >99% with a FOL yield of 87% and a TOF value is 2,9 h?1 . The optimum condition reaction used was 160 °C for 6 h with a catalyst concentration is 5 mol% and isopropyl alcohol as the hydrogen source. The result indicates that Ni(II)-phenoxyimine has the potential as a catalyst of transfer hydrogen reaction FALD to FOL. text |
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Kimia Farkhanudin, Ahmad HYDROGEN TRANSFER REACTION OF FURFURALDEHYDE TO FURFURYL ALCOHOL CATALYZED BY NI(II)-PHENOXYIMINE |
| description |
Furfuraldehyde (FALD) is one of the promising chemicals from biomass lignocellulosic.
FALD has a various derivatives that have many uses in vehicle fuel and raw materials of
the chemical industry. The hydrogenation of FALD in the aldehyde group can produce
furfuryl alcohol (FOL). FOL is an important material to make other FALD derivatives with
value added. Hydrogenation of FALD to FOL generally uses pressurized hydrogen gas (20-
100 bar) and is catalyzed by platinum group metals. The catalysis reaction using
pressurized hydrogen gas is dangerous and requires complicated of infrastructure and
processes. The platinum group metals are quite expensive due to their low abundance. This
research studied the catalytic performance of Ni(II)-phenoxyimine complex in the transfer
hydrogen reaction of FALD to FOL with the alcohol as a hydrogen source. The ligand is
synthesized by a reaction of 2-hydroxybenzaldehyde and aniline derivatives. The
phenoxyimine ligand has been reacted with nickel chloride salt to produce a Ni(II)-
phenoxyimine complexes. The ligand and complex has been characterized by FTIR, PXRD, H-NMR, and MS. The product of the hydrogenation reaction is observed by gas
chromatography (GC). The selectivity of hydrogen transfer reaction FAL to FAL in this
research achieved >99% with a FOL yield of 87% and a TOF value is 2,9 h?1
. The optimum
condition reaction used was 160 °C for 6 h with a catalyst concentration is 5 mol% and
isopropyl alcohol as the hydrogen source. The result indicates that Ni(II)-phenoxyimine
has the potential as a catalyst of transfer hydrogen reaction FALD to FOL. |
| format |
Final Project |
| author |
Farkhanudin, Ahmad |
| author_facet |
Farkhanudin, Ahmad |
| author_sort |
Farkhanudin, Ahmad |
| title |
HYDROGEN TRANSFER REACTION OF FURFURALDEHYDE TO FURFURYL ALCOHOL CATALYZED BY NI(II)-PHENOXYIMINE |
| title_short |
HYDROGEN TRANSFER REACTION OF FURFURALDEHYDE TO FURFURYL ALCOHOL CATALYZED BY NI(II)-PHENOXYIMINE |
| title_full |
HYDROGEN TRANSFER REACTION OF FURFURALDEHYDE TO FURFURYL ALCOHOL CATALYZED BY NI(II)-PHENOXYIMINE |
| title_fullStr |
HYDROGEN TRANSFER REACTION OF FURFURALDEHYDE TO FURFURYL ALCOHOL CATALYZED BY NI(II)-PHENOXYIMINE |
| title_full_unstemmed |
HYDROGEN TRANSFER REACTION OF FURFURALDEHYDE TO FURFURYL ALCOHOL CATALYZED BY NI(II)-PHENOXYIMINE |
| title_sort |
hydrogen transfer reaction of furfuraldehyde to furfuryl alcohol catalyzed by ni(ii)-phenoxyimine |
| url |
https://digilib.itb.ac.id/gdl/view/82863 |
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