Limbah kulit buah pisang ambon hijau (Musa acuminata Colla) merupakan salah satu kandidat bahan baku pektin yang murah dan mudah ditemukan. Ekstraksi pektin dapat dilakukan dengan berbagai metode dan pelarut asam, namun akan mempengaruhi rendemen serta karakteristik pektin yang dihasilkan. Di sisi lain, spektroskopi FTIR dapat digunakan untuk karakterisasi pektin secara cepat, mudah, dengan sejumlah kecil sampel, tetapi data spektrum vibrasi pada rentang bilangan gelombang yang cukup luas seringkali tidak mudah dibedakan antar sampel. Analisis kemometrik multivariat dapat diterapkan untuk memudahkan analisis data. Tujuan penelitian ini adalah untuk membandingkan karakteristik pektin yang diekstraksi dari kulit pisang dengan variasi pelarut (asam klorida dan asam sitrat) dan waktu ekstraksi (5, 10, dan 15 menit) menggunakan metode microwave, serta melakukan komparasi pektin hasil ekstraksi terhadap pektin komersial dengan metode analisis FTIR dan kemometrik. Hasil penelitian menunjukkan keberhasilan ekstraksi pektin yang dikonfirmasi dengan adanya vibrasi gugus fungsi pektin pada spektrum FTIR. Analisis semi-kuantitatif dengan perbandingan data serapan gugus karboksil teresterifikasi dan karboksil bebas menunjukkan pektin hasil ekstraksi dengan pelarut asam sitrat memiliki derajat esterifikasi lebih tinggi dibandingkan hasil ekstraksi dengan asam klorida. Analisis komponen utama mengonfirmasi kedekatan spektrum pektin hasil ekstraksi dengan asam sitrat ataupun asam klorida selama 10 menit dengan spektrum pektin komersial.

Characterization of Pectin Extracted from Banana Peels (Musa acuminata Colla) using FTIR Spectroscopy and Chemometric Analysis. The peel of green banana Musa acuminata Colla is a potential source of pectin. Pectin extraction can be performed using various methods and solvents, but it might influence the characteristics of the result. On the other hand, FTIR spectroscopy can be used to rapidly and simply characterize pectin, but the vibrational data over a wide range of wavenumbers is not easily distinguished between samples. Multivariate chemometric analysis can be applied to ease data analysis. This study aimed to compare the characteristics of pectin obtained after microwave-assisted extraction of the banana peels using different solvents (hydrochloric acid and citric acid) and extraction time (5, 10, and 15 minutes), as well as to compare those pectins toward its commercial grade using chemometric analysis. The result showed successful pectin extraction, as revealed by particular vibrations of functional groups in the pectin structure. Based on semi-quantitative analysis, the absorption band ratio between esterified carboxyl groups and free carboxyl groups revealed that the pectin extracted using citric acid had a higher degree of esterification than that extracted using hydrochloric acid. Principal component analysis confirmed the closeness of pectin obtained after 10 minutes of extraction using citric acid or hydrochloric acid to that of commercial pectin.

Adhiksana, A., 2017. Perbandingan Metode Konvensional Ekstraksi Pektin dari Kulit Buah Pisang dengan Metode Ultrasonik. Journal of Research and Technology, 3(2), 80-87.

Agtary, R. P., 2019. Pemanfaatan Kulit Pisang Menjadi Kue Donat Sebagai Upaya Pengolahan Limbah Kulit Pisang. <https://osf.io/preprints/inarxiv/4chb7/> (diakses pada 30 Desember 2022).

Ahda, Y. and Berry, S., 2008. Pengolahan Limbah Kulit Pisang Menjadi Pektin dengan Metode Ekstraksi. Jurusan Teknik Kimia, Fakultas Teknik, Universitas Diponegoro, Semarang.

Bagherian, H., Ashtiani, F. Z., Fouladitajar, A., and Mohtashamy, M., 2011. Comparisons Between Conventional, Microwave and Ultrasound Assisted Methods for Extraction of Pectin from Grapefruit. Chemical Engineering and Processing: Process Intensification, 50(11), 1237-1243. https://doi.org/10.1016/j.cep.2011.08.002.

Baum, A., Dominiak, M., Vidal-Melgosa, S., Willats, W. G., Søndergaard, K. M., Hansen, P. W., and Mikkelsen, J. D., 2017. Prediction of Pectin Yield and Quality by FTIR and Carbohydrate Microarray Analysis. Food and Bioprocess Technology, 10, 143-154. https://doi.org/10.1007/s11947-016-1802-2.

Chatjigakis, A.K., Pappas, C., Proxenia, N., Kalantzi, O., Rodis, P., and Polissiou, M., 1998. FTIR Spectroscopic Determination of the Degree of Esterification of Cell Wall Pectins from Stored Peaches and Correlation to Textural Changes. Carbohydrate Polymers, 37, 395-408. https://doi.org/10.1016/S0144-8617(98)00057-5.

Cho, E. H., Jung, H. T., Lee, B. H., Kim, H. S., Rhee, J. K., and Yoo, S. H., 2019. Green Process Development for Apple-Peel Pectin Production by Organic Acid Extraction. Carbohydrate Polymers, 204, 97-103. https://doi.org/10.1016/j.carbpol.2018.09.086.

Ciriminna, R., Fidalgo, A., Scurria, A., Ilharco, L. M., and Pagliaro, M., 2022. Pectin: New Science and Forthcoming Applications of The Most Valued Hydrocolloid. Food Hydrocolloids, 107483. https://doi.org/10.1016/j.foodhyd.2022.107483.

Devianti, V. A., and Arifiyana, D., 2021. Optimasi Lama Waktu Ekstraksi dengan Metode MAE pada Pektin dari Kulit Pisang. Journal of Herbal, Clinical and Pharmaceutical Science (HERCLIPS), 3(01), 21–25. https://doi.org/10.30587/herclips.v3i01.3116.

Devianti, V. A., Chrisnandari, R. D., and Darmawan, R., 2019. Pengaruh Metode Ekstraksi Terhadap Mutu Pektin dari Kulit Pisang Raja Nangka. Jurnal Kimia Riset, 4(2), 170. https://doi.org/10.20473/jkr.v4i2.15753.

Evans, E. A., Ballen, F. H., and Siddiq, M., 2020. Banana Production, Global Trade, Consumption Trends, Postharvest Handling, and Processing. In: Handbook of Banana Production, Postharvest Science, Processing Technology, and Nutrition. John Wiley and Sons Ltd., Hoboken (Chapter 1).

Fakhrizal, F.R. and Ristianingsih, Y., 2015. Pengaruh Konsentrasi Pelarut HCl Pada Ektraksi Pektin dari Kulit Pisang Ambon. Konversi, 4(2), 36-40.

Fatimura, M., Masriatini, R., and Putri, F., 2020. Pemanfaatan Limbah Kulit Pisang Menjadi Karbon Aktif Dengan Variasi Konsentrasi Aktivator NaCl. Jurnal Redoks, 5(2), 87–91. https://doi.org/10.31851/redoks.v5i2.4924.

Fitria, V., 2013. Karakterisasi Ppektin Hhasil Ekekstraksi dari Lilimbah Kkulit Ppisang Kakapok (Musa balbisiana ABB). Skripsi. Program Studi Farmasi, Fakultas Kedokteran dan Ilmu Kesehatan, Universitas Islam Negeri Syarif Hidayatullah, Jakarta.

Guzel, M. and Akpinar, O., 2019. Valorisation of Fruit By-Products: Production Characterization of Pectins from Fruit Peels. Food and Bioproducts Processing, 115, 126-133. https://doi.org/10.1016/j.fbp.2019.03.009.

Hanum, F., Kaban, I. M. K., and Tarigan, M. A., 2012. Ekstraksi Pektin Dari Kulit Buah Pisang Raja (Musa sapientum). Jurnal Teknik Kimia USU, 1(2), 21–26. https://doi.org/10.32734/jtk.v1i2.1413.

Haryati, M., 2006. Ekstraksi dan Karakterisasi Pektin dari Limbah Proses Pengolahan Jeruk Pontianak (Citrus nobilis var microcarpa). Fakultas Teknologi Pertanian, Institut Pertanian Bogor, Bogor.

Lasunon, P., and Sengkhamparn, N., 2022. Effect of Ultrasound-Assisted, Microwave-Assisted and Ultrasound-Microwave-Assisted Extraction on Pectin Extraction from Industrial Tomato Waste. Molecules, 27(4), 1157. https://doi.org/10.3390/molecules27041157.

Manis, I., Supriadi, S., and Said, I., 2017. Pemanfaatan Limbah Kulit Pisang sebagai Pupuk Organik Cair dan Aplikasinya Terhadap Pertumbuhan Tanaman Kangkung Darat (Ipomea reptans Poir). Jurnal Akademika Kimia, 6(4), 219-226.

Maran, J., Sivakumar, V., Thirugnanasambandhan, K., and Sridhar, R., 2013. Optimization of Microwave Assisten Extraction of Pectin from Orange Peel. Carbohydrate Polymers, 97(2), 703-709. https://doi.org/10.1016/j.carbpol.2013.05.052.

Marić, M., Grassino, A. N., Zhu, Z., Barba, F. J., Brnčić, M., and Brnčić, S. R., 2018. An Overview of The Traditional and Innovative Approaches for Pectin Extraction from Plant Food Wastes and By-Products: Ultrasound-, Microwaves-, and Enzyme-Assisted Extraction. Trends in Food Science and Technology, 76, 28-37. https://doi.org/10.1016/j.tifs.2018.03.022.

Núñez-Morales, J., Jaramillo, L. I., Espinoza-Montero, P. J., and Sánchez-Moreno, V. E., 2022. Evaluation of Adding Natural Gum to Pectin Extracted from Ecuadorian Citrus Peels as An Eco-Friendly Corrosion Inhibitor for Carbon Steel. Molecules, 27(7), 2111. https://doi.org/10.3390/molecules27072111.

Nurhayati, N., Soetriono, S., and Akhiriani, S., 2021. Teknoekonomi Pengolahan Limbah Kulit Pisang. UPT Penerbitan dan Percetakan Universitas Jember, Jember.

Oliveira, T. Í. S., Rosa, M. F., Cavalcante, F. L., Pereira, P. H. F., Moates, G. K., Wellner, N., and Azeredo, H. M., 2016. Optimization of Pectin Extraction from Banana Peels with Citric Acid by Using Response Surface Methodology. Food Chemistry, 198, 113-118. https://doi.org/10.1016/j.foodchem.2015.08.080.

Pagarra, H., Hartati, H., Purnamasari, A. B., and Muhammad, N., 2020. Characterization And Qualitative Analysis of Pectin from Kepok Banana Peels. AIP Conference Proceedings, 020044. https://doi.org/10.1063/5.0023107.

Panchami, P. S., and Gunasekaran, S., 2017. Extraction and Characterization of Pectin from Fruit Waste. International Journal of Current Microbiology and Applied Sciences, 6(8), 943-948. https://doi.org/10.20546/ijcmas.2017.608.116.

Phaipan, A., 2019. Optimisation of Pectin Extraction Assisted by Microwave from Banana (Musa Sapientum L.) Fruit Peels Using Response Surface Methodology. Carpathian Journal of Food Science and Technology, 126–139. https://doi.org/10.34302/crpjfst/2019.11.2.10.

Phaiphan, A., Churat, S., Dougta, T., Wichalin, P., Khanchai, W., and Penjumras, P., 2020. Effects of Microwave and Ultrasound on The Extraction of Pectin and Its Chemical Characterisation of Banana (Musa sapientum L.) Peels. Food Research, 4(6), 2030–2036. https://doi.org/10.26656/fr.2017.4(6).248.

Rahmati, S., Abdullah, A., and Kang, O. L. 2019. Effects of Different Microwave Intensity on The Extraction Yield and Physicochemical Properties of Pectin from Dragon Fruit (Hylocereus polyrhizus) Peels. Bioactive Carbohydrates and Dietary Fibre, 18, 100186. https://doi.org/10.1016/j.bcdf.2019.100186.

Rahmawati, M., Arief, M., and Satyantini, W. H., 2019. The Effect of Sorbitol Addition on the Characteristic of Carrageenan Edible Film. IOP Conference Series: Earth and Environmental Science, 236, 012129. https://doi.org/10.1088/1755-1315/236/1/012129.

Romadhoni, F. P., 2017. Isolasi Pektin dari Kulit Pisang Kepok (Musa balbisiana Abb) dengan Metode Refluks Menggunakan Pelarut HCl Encer. Doctoral Dissertation, Politeknik Negeri Sriwijaya, Palembang.

Santos, E. E., Amaro, R. C., Bustamante, C. C. C., Guerra, M. H. A., Soares, L. C., and Froes, R. E. S., 2020. Extraction of Pectin from Agroindustrial Residue with An Ecofriendly Solvent: Use of FTIR and Chemometrics to Differentiate Pectins According to Degree of Methyl Esterification. Food Hydrocolloids, 107, 105921. https://doi.org/10.1016/j.foodhyd.2020.105921.

Tchobanoglous, G., Theisen, H., and Vigil, S., 2003. Integrated Solid Waste Management: Engineering Principles and Management Issues, McGraw Hill, New York.

Tuhuloula, A., Budiyarti, L., and Fitriana, E. N., 2013. Karakterisasi Pektin dengan Memanfaatkan Limbah Kulit Pisang Menggunakan Metode Ekstraksi. Konversi, 2(1), 21–27. https://doi.org/10.20527/k.v2i1.123.