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Physical Stability of Hair Tonic Contain Ethanol Extract Galangal (Alpinia galanga L.) Rhizome and Aloe Vera Leaf Filtrate (Aloe vera L.) Akib, Nur illiyin; Tendri Adjeng, Andi Nafisah; Lakasa, Rahiswari Pramudita; Suryani, Suryani; Sartinah, Ari; Ritonga, Halimahtussaddiyah; Armadany, Fery Indradewi
Pharmauho: Jurnal Farmasi, Sains, dan Kesehatan Vol 6, No 2 (2020): Pharmauho
Publisher : Fakultas Farmasi Universitas Halu Oleo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33772/pharmauho.v6i2.12054

AbstractFormulation and stability testing of hair tonic contain galangal rhizome (Alpinia galanga L.) ethanol extract and Aloe vera L. filtrate has been done as alternative for dandruff removal and hair growth. This study aimed to produce stable hair tonic. Galangal rhizome extract obtained by maceration method using ethanol and aloe leaf filtrate obtained by filtering. Extracts and filtrates characterized include water and ethanol soluble content, water and ash content. Hair tonic was formulated by mechanical mixing method with variations of galangal rhizome ethanol extract and aloe vera leaf filtrate which were 4% and 12.5%; 5% and 25%; 6% and 37.5%. Hair tonic prepared were tested for stability by cycling test method including organoleptic, homogeneity, pH, and viscosity. The characteristics of the galangal rhizome ethanol extract were 12% water soluble extract, 12% ethanol soluble extract, 3% water content, and 2% ash content. The characteristics of Aloe vera leaf filtrate were 10% ethanol soluble extract, 1.6% water soluble extract, and 1% ash content. Stability testing shows that hair tonic preparations are organoleptically stable and homogeneous. The pH values before and after cycling test for formulas A, B, and C were 5.27 to 5.34, respectively; 5.00 to 5.15; and 4.87 to 5.05. Viscosity before and after the cycling test for formulas A, B, and C were 1.178 to 1.676 cPs respectively; 1,306 to 1,883 cPs; and 2,148 to 2,296 cPs. It is concluded that hair tonic prepared are stable based on the requirements of Indonesian National Standard (SNI).

Bimbingan Teknis Desain dan Penggunaan Alat Pencacah Nilam Sederhana untuk Meningkatkan Efisiensi dan Efektifitas Pengelolaan Nilam di Desa Opaasi Kecamatan Ranomeeto Barat Kabupaten Konawe Selatan Alimin, Alimin; Ismail, Darwin; Mashuni, Mashuni; Ritonga, Halimahtussaddiyah; La Agusu, La Agusu; Zani, Munirwan; Rahmayanti, Rahmayanti; Muhamad, Fadel; Adman, Finkyasti Nur; Amal, Della Ardana; Anjani, Ika; Alham, Alham
Jurnal Pengabdian Masyarakat Ilmu Terapan (JPMIT) Vol 5, No 2 (2023)
Publisher : Vokasi Universitas Halu Oleo

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33772/jpmit.v5i2.46145

Desa Opaasi is one of the villages where many residents work as patchouli farmers. In 2022, the previous PKM team assisted the community by organizing equipment for distillation and purification of patchouli oil. The main focus of the current program is on the processing of patchouli harvests by farmers who still use conventional methods, such as using a machete to chop their patchouli harvests, making the process ineffective and inefficient. The PKMI 2023 Team then designed and created a patchouli chopping tool as a solution to enhance the efficiency and effectiveness of farmers in chopping their patchouli harvests. Additionally, PKMI team showed technical guidance on the proper use and maintenance of the patchouli chopping tool was provided to the patchouli farmers to ensure optimal utilization and care.

The Synthesis of Methyl Ester Nitrate from Ketapang Seed Oil (Terminalia catappa L.) Nurliana, Laily; Ritonga, Halimahtussaddiyah; Feronika, Yulita; Musta, Rustam
Hydrogen: Jurnal Kependidikan Kimia Vol 12, No 6 (2024): December 2024
Publisher : Universitas Pendidikan Mandalika

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33394/hjkk.v12i6.13537

The synthesis of methyl ester nitrate (MEN) from ketapang oil (Terminalia catappa L.) have been carried out. This study aims to determine the yield and the characteristics of MEN. In this study, ketapang seed oil was obtained from the soxhlet extraction process followed by an evaporation process to separate the oil from the solvent. MEN can be produced from ketapang seed oil by esterification to convert all of FFA became ester, followed by transesterification that intended to produce ester from triglycerides and nitrationthat is reaction of esther and HNO3 to create MEN. Evaporated oil is esterified using methanol with a mole ratio of oil: methanol (1: 6), then the transesterification process using methanol with a mole ratio (1:15) gives a yield of 86%. The transesterification product was then nitrated using HNO3 and H2SO4 for 4 hours with a yield of 83%. Characterization of methyl ester using GC-MS characterization showed the presence of methyl palmitoleate (C17H32O2), methyl palmitate (C19H34O2), methyl oleate (C19H36O2), methyl 13-octadecanoic (C19H36O2), methyl stearate (C19H38O2), and methyl 18-nonadecanoic (C21H42O2). Characterization MEN using a FTIR spectrophotometer showed the presence of a C-ONO2 group at wave number 1550 cm-1, NO2 group at wave number 1365 cm-1 and a C-N group at wave number 1118 cm-1. It shows that MEN can be synthesized from ketapang seed oil.

The Synthesis of Methyl Ester Nitrate from Ketapang Seed Oil (Terminalia catappa L.) Nurliana, Laily; Ritonga, Halimahtussaddiyah; Feronika, Yulita; Musta, Rustam
Hydrogen: Jurnal Kependidikan Kimia Vol. 12 No. 6 (2024): December 2024
Publisher : Universitas Pendidikan Mandalika

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.33394/hjkk.v12i6.13537

The synthesis of methyl ester nitrate (MEN) from ketapang oil (Terminalia catappa L.) have been carried out. This study aims to determine the yield and the characteristics of MEN. In this study, ketapang seed oil was obtained from the soxhlet extraction process followed by an evaporation process to separate the oil from the solvent. MEN can be produced from ketapang seed oil by esterification to convert all of FFA became ester, followed by transesterification that intended to produce ester from triglycerides and nitrationthat is reaction of esther and HNO3 to create MEN. Evaporated oil is esterified using methanol with a mole ratio of oil: methanol (1: 6), then the transesterification process using methanol with a mole ratio (1:15) gives a yield of 86%. The transesterification product was then nitrated using HNO3 and H2SO4 for 4 hours with a yield of 83%. Characterization of methyl ester using GC-MS characterization showed the presence of methyl palmitoleate (C17H32O2), methyl palmitate (C19H34O2), methyl oleate (C19H36O2), methyl 13-octadecanoic (C19H36O2), methyl stearate (C19H38O2), and methyl 18-nonadecanoic (C21H42O2). Characterization MEN using a FTIR spectrophotometer showed the presence of a C-ONO2 group at wave number 1550 cm-1, NO2 group at wave number 1365 cm-1 and a C-N group at wave number 1118 cm-1. It shows that MEN can be synthesized from ketapang seed oil.

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