PEMBUATAN BIOACTIVE ANTIMICROBIAL FOODPACKAGING
Recently, industrial packaging waste especially for food and beverage has significantly increased in Indonesia. From all varieties of packaging materials, plastic is known as the most commonly used material due to its versatility. Bioplastic is a plastic-mimicking material that can be degrade...
Saved in:
| Main Author: | |
|---|---|
| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/73028 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Recently, industrial packaging waste especially for food and beverage has significantly
increased in Indonesia. From all varieties of packaging materials, plastic is known as the
most commonly used material due to its versatility. Bioplastic is a plastic-mimicking
material that can be degraded and made from bio-based materials such as cellulose. The
addition of antimicrobial agent such as chitosan to bioplastic is also beneficial to ensure
the food safety of products packaged. This study aims to isolate cellulose from durian
rind as one of the main ingredients used in antimicrobial bioplastic and to characterize it,
in the terms of its isolation yield and purity. The isolated cellulose is then mixed with
chitosan at various concentration to form thin films. The resulting films are then studied
and characterized, including their antimicrobial ability and biodegradability. Variations
were made based on the mass composition of chitosan and cellulose on the bioplastic
film. Sample ID for variations in chitosan composition is S2.5K1; S2.5K2.5; S2.5K4,
while the Sample ID for variations in cellulose composition is S1K2.5; S2.5K2.5 S4K2.5.
Cellulose from durian rind was isolated by a yield of 3.3% and with a purity of 64%.
Other components contained in the isolated sample are extractives, hemicellulose, and
lignin with a composition percentage of 10.2%; 7.5%; and 18.3%, respectively. The
presence of chitosan in the cellulose film was confirmed by FTIR analysis, which also
show some trace presence of lignin, acetate cellulose, hemicellulose, glycerol, and acetic
acid. SEM images showed that chitosan was incorporated in the areas between the
cellulose fiber, and the highest compactness was found in sample S2.5K4. As such, the
highest tensile stress at maximum force and Young????s Modulus was found in that sample.
Whiteness degree was found to increase when the cellulose amount increases. All samples
exhibited high water vapor transmission rate, whereby around 10% of water was loss in
the duration of 10 days of observation. Water absorption capability was found to increase
as chitosan concentration increases. Consequently, biodegradability was also found to
increase along chitosan concentration. When the film was tested as cake packaging, the
film can be heat sealed but still affects the cake quality in terms of decreasing water
activity and increasing textural hardness over the duration of the observation. In terms of
antimicrobial activity, higher chitosan concentration was found to have higher activity.
|
|---|