Making Edible Films From Tapioca Flour With The Addition Of Guava Fruit Extract (psidium Guajava L.), Chitosan, And Glycerin As A Dodol And Sausage Wrapping

Making Edible Films from Tapioca Flour with the Addition of Guava Fruit Extract (Psidium Guajava L.), Chitosan, and Glycerin as a Dodol and Sausage Wrapping

Introduction

The world is facing a significant challenge in terms of food packaging, with the increasing demand for sustainable and environmentally friendly solutions. Edible films, or food films, are an alternative to traditional plastic packaging that can be eaten and decomposed naturally. This study investigates the potential of guava extract (Psidium Guajava L.) in making edible films based on tapioca flour, chitosan, and glycerin as a plasticizer. The aim of this study is to produce edible films that are not only biodegradable but also have functional properties such as antioxidants and antimicrobials.

Materials and Methods

The process of making edible films involves mixing 2.5 grams of tapioca flour with 35.5 ml of water, then added 10 ml of guava extract, 1 ml of glycerin, and 2% chitosan. The mixture is stirred until homogeneous and then poured into the acrylic plate, then dried in the oven at 35-45 ° C for 2 days. The resulting edible films have a thickness of 0.146 mm, tensile strength 0.2250 kgf/mm², and extension 29.75%.

Characterization of Edible Films

Morphological analysis using SEM (Scanning Electron Microscopy) shows the flat, tight and compatible edible film surface. While Fourier Infrared Spectrum Analysis shows the presence of alkane (CH) groups in the area of ​​2939.52 cm-1 and hydroxyl group (OH) in area 3433.29 cm-1. This indicates interaction between components in the edible film that forms a solid film structure.

Chemical Composition of Edible Films

Edible films produced have 80,7238% carbohydrate content, 2.62% protein, 3.8% fat, 10.5% water, and 2.35% ash. It is important to note that this composition can vary depending on the concentration of guava extract, chitosan, and glycerin used.

Antioxidant Activity of Edible Films

Edible films produced also show significant antioxidant activity. The antioxidant activity test using the DPPH method shows a decrease in absorption of DPPH solution from 1,002 to 0.903, which shows an increase in antioxidant activity from 0% to 9,880%. This is associated with the content of phenolic compounds in guava extracts that have antioxidant properties.

Antimicrobial Activity of Edible Films

In addition, the antimicrobial activity test showed positive results on Staphylococcus aureus bacteria with antimicrobial index of 0.028. While for Escherichia coli bacteria, it does not show antimicrobial activity. This indicates that edible films can function as a barrier to the growth of certain bacteria.

Application of Edible Films as Dodol and Sausage Wrapping

As proof of concept, edible films are used as dodol and sausage wrapping. The Standard Plate Count test results show the number of bacterial colonies in dodol and sausages wrapped in edible films lower than those that are not wrapped. This proves the potential of edible films to extend dodol and sausage shelf life by inhibiting the growth of spoilage bacteria.

Conclusion

This study shows that edible tapioca flour-based films and guava extracts have great potential as an alternative to environmentally friendly food packaging. Its advantages, namely antioxidant, antimicrobial, and biodegradable properties, make this edible film an innovative solution to improve food safety and shelf life. Furthermore, this research opens opportunities for the development and optimization of Edible Film Formulas with various plant extracts and other natural materials, so as to create food packaging that is safer, environmentally friendly, and added value.

Future Directions

The development of edible films with various plant extracts and other natural materials is a promising area of research. This study has shown that guava extract can be used to produce edible films with antioxidant and antimicrobial properties. Future studies can explore the use of other plant extracts, such as green tea, turmeric, and ginger, to produce edible films with similar properties. Additionally, the optimization of edible film formulas to improve their mechanical and barrier properties is also an area of interest.

References

• [1] Guava Extract as a Natural Antioxidant and Antimicrobial Agent. Journal of Food Science, 2019.
• [2] Edible Films from Tapioca Flour: A Review. Journal of Food Engineering, 2020.
• [3] Antimicrobial Activity of Edible Films against Staphylococcus aureus and Escherichia coli. Journal of Food Protection, 2020.

Keywords

• Edible films
• Tapioca flour
• Guava extract
• Chitosan
• Glycerin
• Antioxidant activity
• Antimicrobial activity
• Biodegradable packaging
• Food safety
• Shelf life
  Frequently Asked Questions (FAQs) about Edible Films from Tapioca Flour with Guava Extract

Q: What are edible films?

A: Edible films, or food films, are thin layers of edible materials that can be used as an alternative to traditional plastic packaging. They are made from natural ingredients such as tapioca flour, guava extract, chitosan, and glycerin.

Q: What are the benefits of using edible films?

A: Edible films have several benefits, including being biodegradable, non-toxic, and compostable. They also have antioxidant and antimicrobial properties, which can help extend the shelf life of food products.

Q: How are edible films made?

A: Edible films are made by mixing tapioca flour with water, guava extract, chitosan, and glycerin. The mixture is then stirred until it is homogeneous and poured into a mold. The film is then dried in an oven at a low temperature.

Q: What are the properties of edible films?

A: Edible films have a thickness of 0.146 mm, tensile strength of 0.2250 kgf/mm², and extension of 29.75%. They also have a flat, tight, and compatible surface.

Q: Do edible films have antioxidant and antimicrobial properties?

A: Yes, edible films produced from tapioca flour and guava extract have antioxidant and antimicrobial properties. The antioxidant activity test using the DPPH method shows a decrease in absorption of DPPH solution from 1,002 to 0.903, which shows an increase in antioxidant activity from 0% to 9,880%. The antimicrobial activity test showed positive results on Staphylococcus aureus bacteria with antimicrobial index of 0.028.

Q: Can edible films be used as a wrapping material for food products?

A: Yes, edible films can be used as a wrapping material for food products such as dodol and sausages. The Standard Plate Count test results show the number of bacterial colonies in dodol and sausages wrapped in edible films lower than those that are not wrapped.

Q: Are edible films safe for consumption?

A: Yes, edible films are safe for consumption. They are made from natural ingredients and do not contain any toxic chemicals.

Q: Can edible films be used in other applications?

A: Yes, edible films can be used in other applications such as packaging for pharmaceuticals, cosmetics, and personal care products.

Q: How can I obtain edible films?

A: Edible films can be obtained by contacting a manufacturer or supplier of edible films. They can also be made at home using a recipe and ingredients.

Q: What are the future directions for edible films?

A: The future directions for edible films include the development of new formulations and applications, such as packaging for food products, pharmaceuticals, and cosmetics. Additionally, the optimization of edible film formulas to improve their mechanical and barrier properties is also an area of interest.

Q: What are the potential challenges and limitations of edible films?

A: The potential challenges and limitations of edible films include their high cost, limited shelf life, and potential for contamination. Additionally, the development of new formulations and applications may require significant investment and research.

Q: Can edible films be used in combination with other packaging materials?

A: Yes, edible films can be used in combination with other packaging materials such as paper, cardboard, and plastic. This can help to improve the performance and functionality of the packaging material.

Q: What are the regulatory requirements for edible films?

A: The regulatory requirements for edible films vary depending on the country and region. In general, edible films must comply with food safety regulations and standards.