PRODUCTION AND CHARACTERIZATION OF POLYHYDROXYBUTYRATE BY ENTEROBACTER SP. USING GELIDIUM SP. HYDROLYSATE AS A CARBON SOURCE
Polyhydroxybutyrate (PHB) is a type of bioplastic with great potential as a substitute for conventional petrochemical-based plastics due to its biocompatible and biodegradable properties. This research aims to develop PHB production using Gelidium sp. hydrolysate as a carbon source through fer...
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id-itb.:828432024-07-22T07:23:57ZPRODUCTION AND CHARACTERIZATION OF POLYHYDROXYBUTYRATE BY ENTEROBACTER SP. USING GELIDIUM SP. HYDROLYSATE AS A CARBON SOURCE Gede Tirta Andini, Desak Kimia Indonesia Theses Polyhydroxybutyrate (PHB), Enterobacter sp., Gelidium sp., hydrolysate, carbon source, characterization INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/82843 Polyhydroxybutyrate (PHB) is a type of bioplastic with great potential as a substitute for conventional petrochemical-based plastics due to its biocompatible and biodegradable properties. This research aims to develop PHB production using Gelidium sp. hydrolysate as a carbon source through fermentation by Enterobacter sp. The hydrolysate was obtained through a process using dilute acidon Gelidium sp., which converts polysaccharides into monosaccharides that can beutilized by microorganisms. The fermentation process was controlled under variousconditions to optimize PHB production, including hydrolysate concentrations ranging from 5- 15% v/v in the PHB production medium. The produced PHB was comprehensively analyzed using various characterization methods. The characterization methods used were FTIR and XRD, DSC, and TGA/DTG. This study resulted in optimal hydrolysis conditions at a dilute acid concentration of 0.35 M with a sugar content of 498.30 ± 22.16 mg/ml. The optimum production conditions were then obtained at a hydrolysate concentration of 10%, with the amount of biomass and PHB being 21.8 ± 0.005 mg and 3.51 ± 0.75 mg, respectively. These results indicate that Enterobacter sp. can effectively utilize Gelidium sp. hydrolysate, producing PHB under optimal fermentation conditions. FTIR and XRD analysis confirmed that the synthesized PHB has a structure similar to standard PHB and possesses high crystallinity. DSC and TGA/DTG analyses showed that the synthesized PHB has good thermal stability, with significant massloss occurring at 91.7°C and 250- 300°C, respectively. These findings suggest thatGelidium sp. hydrolysate can be efficiently used as a carbon source for PHB production by Enterobacter sp., with polymer characteristics suitable for bioplasticapplications. text |
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Kimia Gede Tirta Andini, Desak PRODUCTION AND CHARACTERIZATION OF POLYHYDROXYBUTYRATE BY ENTEROBACTER SP. USING GELIDIUM SP. HYDROLYSATE AS A CARBON SOURCE |
| description |
Polyhydroxybutyrate (PHB) is a type of bioplastic with great potential as a
substitute for conventional petrochemical-based plastics due to its biocompatible
and biodegradable properties. This research aims to develop PHB production using
Gelidium sp. hydrolysate as a carbon source through fermentation by Enterobacter
sp. The hydrolysate was obtained through a process using dilute acidon Gelidium
sp., which converts polysaccharides into monosaccharides that can beutilized by
microorganisms. The fermentation process was controlled under variousconditions
to optimize PHB production, including hydrolysate concentrations ranging from 5-
15% v/v in the PHB production medium. The produced PHB was comprehensively
analyzed using various characterization methods. The characterization methods
used were FTIR and XRD, DSC, and TGA/DTG. This study resulted in optimal
hydrolysis conditions at a dilute acid concentration of 0.35 M with a sugar content
of 498.30 ± 22.16 mg/ml. The optimum production conditions were then obtained
at a hydrolysate concentration of 10%, with the amount of biomass and PHB being
21.8 ± 0.005 mg and 3.51 ± 0.75 mg, respectively. These results indicate that
Enterobacter sp. can effectively utilize Gelidium sp. hydrolysate, producing PHB
under optimal fermentation conditions. FTIR and XRD analysis confirmed that the
synthesized PHB has a structure similar to standard PHB and possesses high
crystallinity. DSC and TGA/DTG analyses showed that the synthesized PHB has
good thermal stability, with significant massloss occurring at 91.7°C and 250-
300°C, respectively. These findings suggest thatGelidium sp. hydrolysate can be
efficiently used as a carbon source for PHB production by Enterobacter sp., with
polymer characteristics suitable for bioplasticapplications.
|
| format |
Theses |
| author |
Gede Tirta Andini, Desak |
| author_facet |
Gede Tirta Andini, Desak |
| author_sort |
Gede Tirta Andini, Desak |
| title |
PRODUCTION AND CHARACTERIZATION OF POLYHYDROXYBUTYRATE BY ENTEROBACTER SP. USING GELIDIUM SP. HYDROLYSATE AS A CARBON SOURCE |
| title_short |
PRODUCTION AND CHARACTERIZATION OF POLYHYDROXYBUTYRATE BY ENTEROBACTER SP. USING GELIDIUM SP. HYDROLYSATE AS A CARBON SOURCE |
| title_full |
PRODUCTION AND CHARACTERIZATION OF POLYHYDROXYBUTYRATE BY ENTEROBACTER SP. USING GELIDIUM SP. HYDROLYSATE AS A CARBON SOURCE |
| title_fullStr |
PRODUCTION AND CHARACTERIZATION OF POLYHYDROXYBUTYRATE BY ENTEROBACTER SP. USING GELIDIUM SP. HYDROLYSATE AS A CARBON SOURCE |
| title_full_unstemmed |
PRODUCTION AND CHARACTERIZATION OF POLYHYDROXYBUTYRATE BY ENTEROBACTER SP. USING GELIDIUM SP. HYDROLYSATE AS A CARBON SOURCE |
| title_sort |
production and characterization of polyhydroxybutyrate by enterobacter sp. using gelidium sp. hydrolysate as a carbon source |
| url |
https://digilib.itb.ac.id/gdl/view/82843 |
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