DAFTAR PUSTAKA

Abdulkarim S., Long K., Lai O.M., Muhammad S. dan Ghazali H., 2007. Frying quality and stability of high-oleic Moringa oleifera seed oil in comparison with other vegetable oils. Food chemistry, 105(4): 1382-1389.

Abdullah M., 2016. Fisika Dasar I. Institut Teknologi Bandung, Bandung.

Ahmad A.R., Mun'im A. dan Elya B., 2012. Study of antioxidant activity with reduction of DPPH radical and Xanthine oxidase inhibitor of the extract of Ruellia tuberosa Linn. Leaf.

Ahmed M., Pickova J., Ahmad T., Liaquat M., Farid A. dan Jahangir M., 2016.

Oxidation of Lipids in Foods. Sarhad Journal of Agriculture, 32(3).

Aladedunye F.A. dan Przybylski R., 2009. Degradation and nutritional quality changes of oil during frying. Journal of the American Oil Chemists' Society, 86(2): 149-156.

Amagase H., 2006. Clarifying the real bioactive constituents of garlic. The Journal of nutrition, 136(3): 716S-725S.

Amarowicz R., Karamać M. dan Shahidi F., 1999. Synergistic activity of capelin protein hydrolysates with synthetic antioxidants in a model system. Journal of Food Lipids, 6(4): 271-275.

Andarwulan N., Kusnandar F. dan Herawati D., 2011. Analisis Pangan. Dian Rakyat, Jakarta.

Anonim T.A.T., 2016. Namkeen Processing Machines. Diakses pada tanggal 27 Mei 2021 dari: https://www.pulverizerindia.com/circular-fryer-for- namkeen.html.

AOCS (American Oil Chemists' Society), 2003. Official methods and recommended practices of the American Oil Chemists' Society. Metode Cd 8b-90. Peroxide Value Acetic Acid-Isooctane Method.

AOCS (American Oil Chemists' Society), 2009. Official methods and recommended practices of the American Oil Chemists' Society. Metode Cd Cd 3d-63. Acid Value.

AOCS (American Oil Chemists' Society), 2017. Official methods and recommended practices of the American Oil Chemists' Society. Method Cd 18-90.

Arisandi Y. dan Andriani Y., 2008. Khasiat tanaman obat. Pustaka Buku Murah, Jakarta.

Athukorala Y., Lee K.W., Song C., Ahn C.B., Shin T.S., Cha Y.J. , dkk., 2003.

Potential antioxidant activity of marine red alga Grateloupia filicina extracts. Journal of Food Lipids, 10(3): 251-265.

Bahnasawy A.H., 2007. Some physical and mechanical properties of garlic.

International Journal of Food Engineering, 3(6).

Bakhtiari M.R., 2015. Determining physical and aerodynamic properties of garlic to design and develop of a pneumatic garlic clove metering system.

Agricultural Engineering International: CIGR Journal, 17(1).

Balqis, Widodo, Lukiati B. dan Amin M., 2018. Active compounds with antioxidant potential in boiled local Papua-Indonesian garlic. AIP Publishing LLC.

Barnes J., Anderson L. dan Phillipson J., 2007. Herbal Medicines. Pharmaceutical Press, London.

Bešter E., Butinar B., Bučar-Miklavčič M. dan Golob T., 2008. Chemical changes in extra virgin olive oils from Slovenian Istra after thermal treatment. Food chemistry, 108(2): 446-454.

Borlinghaus J., Albrecht F., Gruhlke M.C., Nwachukwu I.D. dan Slusarenko A.J., 2014. Allicin: chemistry and biological properties. Molecules, 19(8):

12591-12618.

Bravi E., Mangione A., Marconi O. dan Perretti G., 2015. Comparative study of oxidation in canned foods with a combination of vegetables and covering oils. Italian Journal of Food Science, 27(2): 260-270.

Bravi E., Perretti G., Falconi C., Marconi O. dan Fantozzi P., 2016. Antioxidant effects of supercritical fluid garlic extracts in sunflower oil. Journal of the Science of Food Agriculture, 97(1): 102-107.

Butt M.S., Sultan M.T., Butt M.S. dan Iqbal J., 2009. Garlic: nature's protection against physiological threats. Critical reviews in food science nutrition, 49(6): 538-551.

Casal S., Malheiro R., Sendas A., Oliveira B.P. dan Pereira J.A., 2010. Olive oil stability under deep-frying conditions. Food Chemical Toxicology, 48(10):

2972-2979.

Che Man Y.B. dan Setiowaty G., 1999. Determination of anisidine value in thermally oxidized palm olein by Fourier transform infrared spectroscopy.

Journal of the American Oil Chemists' Society, 76(2): 243-247.

Cheng Y., Xu Q., Liu J., Zhao C., Xue F. dan Zhao Y., 2014. Decomposition of Five Phenolic Compounds in High Temperature Water. Journal of the Brazilian Chemical Society, 25(11): 2102-2107.

Chirinos R., Rogez H., Campos D., Pedreschi R. dan Larondelle Y., 2007.

Optimization of extraction conditions of antioxidant phenolic compounds from mashua (Tropaeolum tuberosum Ruíz & Pavón) tubers. Separation and Purification Technology, 55(2): 217-225.

Coletti F., Crittenden B.D. dan Macchietto S., 2015. Basic science of the fouling process. In, Crude Oil Fouling. Elsevier.

Devy N.F. dan Supriyanto A., 2019. Eksplorasi, karakterisasi, dan evaluasi beberapa klon bawang putih lokal.

Dewi N.P.S.D.P., 2019. Pengaruh Suhu Dan Frekuensi Pemanasan Berulang Terhadap Kualitas Fisik Dan Kimia Minyak Kelapa Sawit Komersial.

Fakultas Teknologi Pertanian, Universitas Brawijaya, Malang.

Dress A., 2011. Physical And Mechanical Properties Of Garlic Relating Rubbing And Planting Machines. Misr Journal of Agricultural Engineering, 28(3):

571-588.

Du G., Zhao H., Song Y., Zhang Q. dan Wang Y., 2011. Rapid simultaneous determination of isoflavones in Radix puerariae using high‐performance liquid chromatography–triple quadrupole mass spectrometry with novel shell‐type column. Journal of Separation Science, 34(19): 2576-2585.

Ebadi M., 2006. Pharmacodynamic basis of herbal medicine. CRC press.

Febriansyah R., 2007. Mempelajari pengaruh penggunaan berulang dan Aplikasi adsorben terhadap kualitas minyak dan tingkat penyerapan minyak pada kacang sulut. Fakultas Teknologi Pertanian, Institut Pertanian Bogor, Bogor.

Food and Drug Administration F., 2020. TBHQ. Food Preservatives. Food Additives Permitted for Direct Addition to Food for Human Consumption.

Code of Federal Regulations (CFR), 172-185(Title 21).

Gebreyohannes G., 2013. Fate of ß-asarone in Ayurvedic Sodhana process of Vacha. J ayuveda Integr Med Reid.

Gray J.I. dan Monahan F.J., 1992. Measurement of lipid oxidation in meat and meat products. Trends in Food Science Technology, 3: 315-319.

Gritter R., James M. dan Arthur E., 1991. Pengantar Kromatografi. Edisi ke-2.

Penerjemah: Padmawinata, K., Soediro, I.

Hacıseferoğulları H., Özcan M., Demir F. dan Çalışır S., 2005. Some nutritional and technological properties of garlic (Allium sativum L.). Journal of Food Engineering, 68(4): 463-469.

Haerani A., Chaerunisa A.Y. dan Subarnas A., 2018. Antioksidan Untuk Kulit.

Farmaka, 16(2): 135-151.

Hapsari L.W. dan Saptadi D., 2019. Respon Beberapa Varietas Bawang Putih (Allium sativum L.) dalam Pertumbuhan dan Potensi Pembentukan Umbi Mikro Terhadap Pemberian Berbagai Konsentrasi Sukrosa. Jurnal Produksi Tanaman, 6(9).

Harborne J.B., 1987. Metode fitokimia: Penuntun cara modern menganalisis tumbuhan. ITB, Bandung.

Hou D.-X., 2003. Potential mechanisms of cancer chemoprevention by anthocyanins. Current molecular medicine, 3(2): 149-159.

Ichikawa M., Yoshida J., Ide N., Sasaoka T., Yamaguchi H. dan Ono K., 2006.

Tetrahydro-β-carboline derivatives in aged garlic extract show antioxidant properties. The Journal of nutrition, 136(3): 726S-731S.

Iqbal S. dan Bhanger M., 2007. Stabilization of sunflower oil by garlic extract during accelerated storage. Food chemistry, 100(1): 246-254.

Irianto H.E. dan Giyatmi S., 2009. Teknologi Pengolahan Hasil Perikanan.

Universitas Terbuka, Jakarta.

Iskandar Y., Halimah E. dan Rumaseuw E.S., 2018. Review : Pemberian Ekstrak Bawang Putih (Allium sativum L.) pada Proses Pemanasan terhadap Penurunan Kadar LDL dan HDL pada Tikus Putih Jantan Galur Winstar.

Jurnal Kesehatan Caring and Enthuasiasm no.1 Vol.9 April 2018.

Jain P. dan Agrawal R., 2008. Antioxidant and free radical scavenging properties of developed mono-and polyherbal formulations. Asian J Exp Sci, 22(3):

213-220.

Jones M., Collin H., Tregova A., Trueman L., Brown L., Cosstick R., dkk., 2007.

The biochemical and physiological genesis of alliin in garlic. Medicinal Aromatic Plant Science Biotechnology, 1(1): 21-24.

Kaleem A., Aziz S. dan Iqtedar M., 2015. Investigating changes and effect of peroxide values in cooking oils subject to light and heat. FUUAST Journal of Biology, 5(2): 191-196.

Karakaya S. dan Şimşek Ş., 2011. Changes in total polar compounds, peroxide value, total phenols and antioxidant activity of various oils used in deep fat frying. Journal of the American Oil Chemists' Society, 88(9): 1361-1366.

Kaveri G. dan Thirupathi V., 2015. Studies on Properties of Multiplier CO 4 Onion Bulb (Allium cepa L. var. aggregatum. Don.). Madras Agricultural Journal, 102.

KBBI, 2021. KBBI Daring. Diakses pada tanggal 14 Juni 2021 dari:

https://kbbi.kemdikbud.go.id/.

Ketaren S., 2008. Pengantar Teknologi Pengolahan Minyak dan Lemak Pangan.

UI-Press, Jakarta.

Kristanti A.N., 2019. Fitokimia. Airlangga University Press, Surabaya.

Lee K.-S., Kim G.-H., Kim H.-H., Seong B.-J., Kim S.-I., Han S.-H., dkk., 2013.

Physicochemical properties of frying ginseng and oils derived from deep- frying ginseng. Journal of the Korean Society of Food Science Nutrition, 42(6): 941-947.

Li H., Van De Voort F.R., Ismail A.A. dan Cox R., 2000. Determination of Peroxide Value by Fourier Transform Near‐Infrared Spectroscopy. Journal of the American Oil Chemists' Society, 77(2): 137-142.

Li J., Cai W., Sun D. dan Liu Y., 2016. A quick method for determining total polar compounds of frying oils using electric conductivity. Food Analytical Methods, 9(5): 1444-1450.

Li P., Yin Z.-Q., Li S.-L., Huang X.-J., Ye W.-C. dan Zhang Q.-W., 2014.

Simultaneous determination of eight flavonoids and pogostone in Pogostemon cablin by high performance liquid chromatography. Journal of Liquid Chromatography Related Technologies, 37(12): 1771-1784.

List G.R. dan King J.W., 2011. Hydrogenation of Fats and Oils. Urbana, IL: 219.

Mahboubifar M., Yousefinejad S., Alizadeh M. dan Hemmateenejad B., 2016.

Prediction of the acid value, peroxide value and the percentage of some fatty acids in edible oils during long heating time by chemometrics analysis of FTIR-ATR spectra. Journal of the Iranian Chemical Society, 13(12): 2291- 2299.

Man Y.C. dan Hussin W.W., 1998. Comparison of the frying performance of refined, bleached and deodorized palm olein and coconut oil. Journal of Food Lipids, 5(3): 197-210.

Man Y.C., Jialong L. dan Liu J., 1999. The effects of TBHQ and α‐tocopherol on quality characteristics of refined‐bleached and deodorized palm olein (RBDPO) during deep‐fat frying. Journal of Food Lipids, 6(2): 117-129.

Manjunatha S., Mathews A.T. dan Patki P., 2019. Modelling the kinetics of mass transfer and change in colour during deep fat frying of green peas (Pisum sativum L.) at different frying temperatures. Heat Mass Transfer, 55(11):

3087-3102.

Mariod A., Matthäus B., Eichner K. dan Hussein I.H., 2006. Frying quality and oxidative stability of two unconventional oils. Journal of the American Oil Chemists' Society, 83(6): 529-538.

Maskan M., 2003. Change in colour and rheological behaviour of sunflower seed oil during frying and after adsorbent treatment of used oil. European Food Research Technology, 218(1): 20-25.

Masoumi A., Rajabipour A., Tabil L. dan Akram A., 2006. Physical attributes of garlic (Allium sativum L.).

Mohsenin N.N., 2020. Physical Properties of Plant and Animal Materials: v. 1:

Physical Characteristics and Mechanical Properties. Routledge, Oxfordshire.

Muchtadi T.R. dan Sugiyono F.A., 2010. Ilmu Pengetahuan Bahan Pangan.

Alfabeta, Bogor.

Munawaroh S., 2010. Ekstraksi minyak atsiri daun jeruk purut (Citrus hystrix DC) dengan pelarut etanol dan N-Heksana. Universitas Negeri Semarang.

Mutholib A., Handayani H. dan Rini O., 2016. Gambaran Ketengikan Minyak Goreng Bermerk dan Minyak Goreng Curah Setelah Melalui Proses Penggorengan. Jurnal Kesehatan Poltekkes Palembang, 11(1): 172-186.

Naomi P., Gaol A.M.L. dan Toha M.Y., 2013. Pembuatan sabun lunak dari minyak goreng bekas ditinjau dari kinetika reaksi kimia. Jurnal Teknik Kimia, 19(2).

Nasir S., Fitriyanti F. dan Kamila H., 2009. Ekstraksi dedak padi menjadi minyak mentah dedak padi (Crude Rice Bran Oil) Dengan Pelarut N-Hexane Dan Ethanol. Jurnal Teknik Kimia, 16(2).

Navas J., Tres A., Codony R. dan Guardiola F., 2007. Optimization of analytical methods for the assessment of the quality of fats and oils used in continuous deep fat frying. Grasas y Aceites, 58(2): 154-162.

Nunes C.A., 2014. Vibrational spectroscopy and chemometrics to assess authenticity, adulteration and intrinsic quality parameters of edible oils and fats. Food Research International, 60: 255-261.

Nurcholis W., 2008. Profil Senyawa Penciri Bioaktifitas Tanaman Kunyit pada Agrobiofisik Berbeda [tesis]. Fakultas Matematika dan Ilmu Pengetahuan Alam, Institut Pertanian Bogor, Bogor.

Nurhasnawati H., Sukarmi S. dan Handayani F., 2017. Perbandingan Metode Ekstraksi Maserasi dan Sokletasi terhadap Aktivitas Antioksidan Ekstrak

Etanol Daun Jambu Bol (Syzygium malaccense L.). Jurnal Ilmiah Manuntung, 3(1): 91-95.

Pangestu, 2011. Teknologi Pengolahan Hasil Pertanian. Bina Ilmu, Surabaya.

Pokorny J., Yanishlieva N. dan Gordon M.H., 2001. Antioxidants in food: practical applications. CRC press.

Pratiwi Sylvia T., 2008. Mikrobiologi Farmasi. Erlangga, Jakarta.

Priyanka Rajkumar K. dan Jain K.K., 2018. Study of Physical Properties of Garlic Plant for Garlic Harvester Design. Trends in Biosciences, 11(29).

PubChem, 2019. Allicin. Diakses pada tanggal 15 Juni 2021 dari:

https://pubchem.ncbi.nlm.nih.gov/compound/65036.

Pusat Data dan Sistem Informasi Pertanian P., 2018. Statistik Konsumsi Pangan.

Sekretariat Jenderal - Kementrian Pertanian, Jakarta.

Rahardjo A., Manaf Y., Damanik Ambarita M.T. dan Nusantoro B., 2020. Minyak Goreng untuk Pengolahan Pangan. Gadjah Mada University Press, Yogyakarta.

Rahayu S., Kurniasih N. dan Amalia V., 2015. Ekstraksi dan Identifikasi Senyawa Flavonoid dari Limbah Kulit Bawang Merah Sebagai Antioksidan Alami.

al-Kimiya: Jurnal Ilmu Kimia dan Terapan, 2(1): 1-8.

Rani A.K.S., Reddy S.Y. dan Chetana R., 2010. Quality changes in trans and trans free fats/oils and products during frying. European Food Research Technology, 230(6): 803-811.

Rauf R., 2015. Kimia Pangan. Andi Offset, Yogyakarta.

Rivlin R.S., 2001. Historical perspective on the use of garlic. The Journal of nutrition, 131(3): 951S-954S.

Sa'adah H. dan Nurhasnawati H., 2017. Perbandingan Pelarut Etanol dan Air pada Pembuatan Ekstrak Umbi Bawang Tiwai (Eleutherine americana Merr) Menggunakan Metode Maserasi. Jurnal Ilmiah Manuntung, 1(2): 149-153.

Saad B., Wai W.T., Lim B.P. dan Saleh M.I., 2006. Flow injection determination of peroxide value in edible oils using triiodide detector. Analytica Chimica Acta, 565(2): 261-270.

Santoso H.B., 2000. Bawang Putih. Kanisius, Yogyakarta.

Sayuti K. dan Yenrina R., 2015. Antioksidan Alami dan Sintetik. Andalas University Press, Padang.

Sebastian A., Ghazani S.M. dan Marangoni A.G., 2014. Quality and safety of frying oils used in restaurants. Food Research International, 64: 420-423.

Setiati S., 2003. Radikal Bebas, Antioksidan dan Proses Menua. Medika, 6(29): 79- 86.

Shahidi F. dan Wanasundara U.N., 2002. Methods for measuring oxidative rancidity in fats and oils. Food Lipids: Chemistry, Nutrition Biotechnology, 3: 387-403.

Shahidi F. dan Zhong Y., 2007. Measurement of antioxidant activity in food and biological systems. In. ACS Publications.

Shahidi F. dan Zhong Y., 2010. Lipid oxidation and improving the oxidative stability. Chemical Society Reviews, 39(11): 4067-4079.

Singh B.B., Vinjamury S.P., Der-Martirosian C., Kubic E., Mishra L.C., Shepard N.P., dkk., 2007. Ayurvedic and collateral herbal treatments for hyperlipidemia: a systematic review of randomized controlled trials and quasi-experimental designs. Database of Abstracts of Reviews of Effects : Quality-assessed Reviews.

SNI B.S.N., 2013. SNI no. 3741:2013 Minyak Goreng. Badan Standardisasi Nasional, Jakarta.

Spickett C.M. dan Forman H.J., 2019. Lipid oxidation in health and disease. CRC Press.

Suleria H., Butt M., Anjum F., Ashraf M., Quayyum M., Khalid N. dan Younis M., 2013. Aqueous garlic extract attenuates hypercholesterolemic and hyperglycemic perspectives; rabbit experimental modeling. Journal of medicinal plants research, 7(23): 1709-1717.

Sulistyorini A., 2015. Potensi Antioksidan dan Antijamur Ekstrak Umbi Bawang Putih (Allium sativum Linn.) Dalam Beberapa Pelarut Organik. Biologi, Fakultas Sains dan Teknologi, Universitas Islam Negeri Maulana Malik Ibrahim, Malang.

Sultan M.T., Buttxs M.S., Qayyum M.M.N. dan Suleria H.A.R., 2014. Immunity:

plants as effective mediators. Critical reviews in food science nutrition, 54(10): 1298-1308.

Syeda S.A. dan Barib A., 2014. Qualitative analysis of various component of Allium sativum (fresh garlic bulb), extracted in different organik solvents using GC-high resolution mass spectrophotometer (JMS700). International Journal of Current Research in Chemistry and Pharmaceutical Sciences, 1(8): 122-126.

Takhtadzhi︠a︡n A.L., Takhtajan L.A. dan Takhtajan A., 1997. Diversity and classification of flowering plants. Columbia University Press.

Tapiero H., Townsend D.M. dan Tew K.D., 2004. Organosulfur compounds from alliaceae in the prevention of human pathologies. Biomedicine pharmacotherapy, 58(3): 183-193.

Ternadi C.O., 2021. Peningkatan Stabilitas Oksidatif Minyak Goreng Sawit dengan Penambahan Ekstrak Bawang Putih (Allium sativum) pada Penggorengan Rendam. Departemen Teknologi Pangan dan Hasil Pertanian, Fakultas Teknologi Pertanian, Universitas Gadjah Mada, Yogyakarta.

Tolinski M., 2015. Additives for polyolefins: getting the most out of polypropylene, polyethylene and TPO. William Andrew, Norwich.

Toripah S.S., 2014. Aktivitas Antioksidan Dan Kandungan Total Fenolik Ekstrak Daun Kelor (Moringa Oleifera Lam). Pharmacon, 3(4).

Triantoro B., 2015. Alat Uji Pengaruh Variasi Panjang Nozzle Terhadap Efisiensi Jet Pump (Perawatan dan Perbaikan). Politeknik Negeri Sriwijaya, Palembang.

Trilaksani W., 2003. Antioksidan: Jenis, Sumber, Mekanisme Kerja dan Peran Terhadap Kesehatan. IPB, Bogor.

Tsuzuki W., 2010. Cis–trans isomerization of carbon double bonds in monounsaturated triacylglycerols via generation of free radicals. Chemistry physics of lipids, 163(7): 741-745.

van Koerten K.N., 2016. Deep Frying: From Mechanisms to Product Quality. Food Technology, Agrobiotechnology, Wageningen University, Wageningen.

Vieira T.M. dan Regitano-d'Arce M.A., 2001. Canola oil thermal oxidation during oven test and microwave heating. LWT-Food Science Technology, 34(4):

215-221.

Wai W.T., Saad B. dan Lim B.P., 2009. Determination of TOTOX value in palm oleins using a FI-potentiometric analyzer. Food Chemistry, 113(1): 285- 290.

Warner K., White PJ 2004. Chemical and physical reactions in oil during frying.

16-28.

White R.P. dan Lipson J.E., 2016. Polymer free volume and its connection to the glass transition. Macromolecules, 49(11): 3987-4007.

Wildan F., 2002. Penentuan bilangan peroksida dalam minyak nabati dengan cara titrasi. Jurnal Temu Teknis Fungsional Non Peneliti. Balai Penelitian Ternak, Bogor.

Winarno F., 1999. Minyak Goreng dalam Menu Masyarakat. Balai Pustaka, Jakarta.

Winarno F., 2002. Kimia Pangan dan Gizi. Gramedia Pustaka Utama, Jakarta.

Winarsi H., 2007. Antioksidan Alami dan Radikal Bebas. Yogyakarta, Kanisius.

Wirakartakusumah M., Hermanianto D. dan Andrawulan N., 2004. Prinsip-Prinsip Teknik Pangan. PAU Pangan dan Gizi IPB, Bogor.

Wulandari N., 1999. Pengaruh Temperatur Terhadap Reaksi Isomerisasi α-Pinena dari minyak Terpentin dengan Katalis Asam Lewis FeCl3 . Fakultas Matematika dan Ilmu Pengetahuan Alam, UNNES, Semarang.

Yamsaengsung R. dan Moreira R., 2002. Modeling the transport phenomena and structural changes during deep fat frying: Part I: Model development.

Journal of Food Engineering, 53(1): 1-10.

Yi Y., Zhang Q.-W., Li S.-L., Wang Y., Ye W.-C., Zhao J. dan Wang Y.-T., 2012.

Simultaneous quantification of major flavonoids in “Bawanghua”, the edible flower of Hylocereus undatus using pressurised liquid extraction and high performance liquid chromatography. Food chemistry, 135(2): 528-533.

Yoshimura K., Harii K., Masuda Y., Takahashi M., Aoyama T. dan Iga T., 2001.

Usefulness of a narrow-band reflectance spectrophotometer in evaluating

effects of depigmenting treatment. Aesthetic plastic surgery, 25(2): 129- 133.

Yuhua W.F.D. dan S. E., 2010. Buku Pintar : Terapi Jahe dan Bawang Putih.

Taramedia & Restu Agung, Jakarta.

Yuslianti E.R., 2018. Pengantar Radikal Bebas dan Antioksidan. Deepublish, Yogyakarta.

Zhang C., Wu H. dan Weng X., 2004. Two novel synthetic antioxidants for deep frying oils. Food chemistry, 84(2): 219-222.

Zhang Q.-W., Lin L.-G. dan Ye W.-C., 2018. Techniques for extraction and isolation of natural products: A comprehensive review. Chinese Medicine, 13(1): 1-26.

Zribi A., Jabeur H., Matthäus B. dan Bouaziz M., 2016. Quality control of refined oils mixed with palm oil during repeated deep‐frying using FT‐NIRS, GC, HPLC, and multivariate analysis. European Journal of Lipid Science Technology, 118(4): 512-523.