The Effectiveness of Molasses from a Mixture of Sugar Cane Juice and Brown Sugar

Authors

  • Dwi Rizaldi Hatmoko Universitas PGRI Mpu Sindok Nganjuk
  • Agustin Patmaningrum Universitas PGRI Mpu Sindok Nganjuk
  • Moh. Rifqi Fauzi Universitas PGRI Mpu Sindok Nganjuk

DOI:

https://doi.org/10.59525/jess.v4i2.1150

Abstract

This study aims to analyze the effectiveness of molasses produced from a mixture of sugarcane juice and brown sugar in terms of chemical composition, antioxidant activity, and its potential as a fermentation substrate for ethanol and lactic acid. The study used a literature review approach by reviewing relevant scientific articles, proceedings, and academic books from the last five to ten years. These sources were selected based on the clarity of the method, the relationship to molasses characteristics, and its use in functional foods and the bioindustry. The results of the study indicate that sugarcane molasses is rich in phenolics, flavonoids, and melanoidins with high antioxidant capacity, while brown sugar also has strong antioxidant activity and contributes minerals and Maillard compounds that play a role in redox activity. Sugarcane molasses has been proven effective as a fermentation substrate for the production of ethanol and lactic acid with competitive process performance and relatively low carbon source costs. Theoretically, molasses from a mixture of sugarcane juice and brown sugar has the potential to produce a sweet matrix with a high density of bioactive compounds and favorable fermentative characteristics. However, specific experimental data on the mixed molasses is still limited, so further research is needed to verify its chemical profile, actual antioxidant activity, safety, and fermentation performance.

References

Ali, S. E., El Gedaily, R. A., Mocan, A., Farag, M. A., & El-Seedi, H. R. 2019. Profiling metabolites and biological activities of sugarcane (Saccharum officinarum L.) juice and its product molasses via a multiplex metabolomics approach. Molecules, 24(5), 934.

Deseo, M. A., Elkins, A., Rochfort, S., & Kitchen, B. 2020. Antioxidant activity and polyphenol composition of sugarcane molasses extract. Food Chemistry, 314, 126180.

Galvan, J. L., & Galvan, M. C. 2017. Writing Literature Reviews: A Guide for Students of the Social and Behavioral Sciences (7th ed.). Routledge.

Gomes, D., Cruz, M., de Resende, M., Ribeiro, E., Teixeira, J., & Domingues, L. 2021. Very high gravity bioethanol revisited: Main challenges and advances. Fermentation, 7(1), 38.

Hasiltani.id. 2025. Manfaat gula aren dalam kehidupan sehari-hari – pilihan pemanis alami. Diakses 2025, dari Hasiltani.id.

Hello Sehat. 2024. 13 manfaat gula aren untuk kesehatan yang perlu Anda tahu. Diakses 2025, dari Hello Sehat – https://hellosehat.com

Mabia, A. G., Andrianisa, H. A., Danielli, C., Ouattara, L. Y., Kouadio, N. E., Kouassi, E. K. A., Gardossi, L., & Yao, K. B. 2025. Exploring the synthesis of lactic acid from sugarcane molasses collected in Côte d’Ivoire using Limosilactobacillus fermentum ATCC 9338 in a batch fermentation process. Bioengineering, 12(8), 817.

Molina-Cortés, A., Sánchez-Motta, T., Tobar-Tosse, F., & Quimbaya, M. 2020. Spectrophotometric estimation of total phenolic content and antioxidant capacity of molasses and vinasses generated from the sugarcane industry. Waste and Biomass Valorization, 11, 3453–3463.

Morin, J.-F., Olsson, C., & Atikcan, E. Ö. 2021. Research Methods in the Social Sciences: An A–Z of Key Concepts. Oxford University Press.

Purssell, E., & McCrae, N. 2020. How to Perform a Systematic Literature Review: A Guide for Healthcare Researchers, Practitioners and Students. Springer Nature.

Salatein, N. M., Omara, A. F., Mansour, A. R., & Fahim, I. S. 2025. A study on the technical and financial feasibility of producing lactic acid from sugarcane and beet molasses. Results in Engineering, 25, 104184.

Shafiqa-Atikah, I., Norizzah, A. R., Zaliha, O., Nur Hanani, Z. A., & Syahida, A. 2020. Evaluation of phenolic constituent, antioxidant and antibacterial activities of sugarcane molasses towards foodborne pathogens. Food Research, 4(Suppl. 2), 40–47.

Swasti, Y. R., Murkovic, M., & Sari, P. M. 2024. Antioxidant activities and mutagenic compounds in coconut and palm sugar from special region of Yogyakarta Indonesia. Food Research, 8(4), 336–342.

Vignesh Kumar, B., Muthumari, B., Kavitha, M., John Praveen Kumar, J. K., Thavamurugan, S., Arun, A., & Jothi Basu, M. 2022. Studies on optimization of sustainable lactic acid production by Bacillus amyloliquefaciens from sugarcane molasses through microbial fermentation. Sustainability, 14(12), 7400.

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Published

2025-12-12

How to Cite

Hatmoko, D. R., Patmaningrum, A., & Fauzi, M. R. (2025). The Effectiveness of Molasses from a Mixture of Sugar Cane Juice and Brown Sugar. Journal of Economics and Social Sciences (JESS), 4(2), 1661–1670. https://doi.org/10.59525/jess.v4i2.1150

Issue

Vol. 4 No. 2 (2025): Journal of Economics and Social Sciences (JESS)

Section

Articles

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Copyright (c) 2025 Dwi Rizaldi Hatmoko, Agustin Patmaningrum, Moh. Rifqi Fauzi

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This work is licensed under a Creative Commons Attribution 4.0 International License.