Hasil Pencarian  ::  Simpan CSV :: Kembali

Hasil Pencarian

Ditemukan 3 dokumen yang sesuai dengan query
cover
Muzdalifah Berlian Maloka
Sintesis senyawa bioaktif diaril pentanoid analog pigmen kurkumin dengan bantuan katalis ramah lingkungan Fe3O4-ACE = Synthesis of bioactived compound diaryl pentanoid analog curcumin pigment with the green catalyst Fe3O4-ACE
"ABSTRAK
Sintesis senyawa diarilpentanoid analog kurkumin dilakukan melalui reaksi Kondensasi Aldol dari aldehid aromatik dengan senyawa keton aromatik menggunakan katalis ramah lingkungan Fe3O4-ACE. Kondisi reaksi optimum pada suhu ruang, dengan jumlah katalis 20 berat, selama 2 jam dalam pelarut etanol. Identifikasi senyawa dilakukan dengan menggunakan spektrofotometer UV-Vis, FTIR, dan GC-MS. Senyawa 1 dan 2 yang dihasilkan memiliki nilai persen rendemen sebesar 51,58 dan 88,20 . Katalis Fe3O4-ACE diidentifikasi dengan XRD, SEM, PSA, dan FTIR.
ABSTRACT
The synthesis of curcumin analogue diarylpentanoid compounds was carried out by the Aldol Condensation reaction of the aromatic aldehyde cinnamaldehyde with the aromatic ketone compound acetophenone using the environmentally friendly Fe3O4 ACE catalyst. The optimum reaction conditions at room temperature, with a catalyst amount of 20 weight, for 2 hours in ethanol. The identification of compounds was performed using UV Vis, FTIR, and GC MS spectrophotometers. Compound 1 and 2 have the percent yield of 51,58 and 88,20. The Fe3O4 ACE catalyst was identified by XRD, SEM, PSA, and FTIR."
2017
S68020
UI - Skripsi Membership  Universitas Indonesia Library
cover
Muhammad Reza Fauzi
Slow pyrolysis bonggol jagung untuk sintesis bio-oil dan potensi mekanisme upgrading menuju bioavtur = Corn cobs slow pyrolysis for bio-oil synthesis and upgrading potential mechanisms to bioavtur
"Sebagai upaya memenuhi kebutuhan bahan bakar penerbangan yang meningkat, sintesis bioavtur dari bahan biomassa lignoselulosa bisa menjadi solusi saat ini. Bonggol jagung sebagai bahan baku dipilih karena kelimpahannya di Indonesia mencapai 7,2 juta ton/tahun dan kandungan holoselulosa yang tinggi sehingga akan menguntungkan saat dikonversi menjadi bio-oil dengan pirolisis. Tujuan penelitian ini untuk mendapatkan analisis kandungan bio-oil dan mendapatkan analisis literatur potensi senyawa yang dominan pada langkah peningkatan mutu bio-oil dan katalisnya dari penelitian eksperimental. Pirolisis ditempuh dengan laju pemanasan rendah sebesar 50C/menit hingga temperatur 5000C dengan kecepatan pengaduk 100 rpm. Berdasarkan analisis GC-MS, komposisi senyawa terbanyak pada bio-oil berupa asam benzoat sebesar 44,45%, yang terbentuk dari oksidasi aldehid yang didahului oleh oksidasi alkohol. Ditinjau dari analisis NMR, ikatan kimia dominan yang terdeteksi ialah membentuk siklopentenon, dengan ikatan C pada siklopentena dan karbonil keton yang masing-masing sebesar 55,61% dan 34,81% pada C-NMR, serta ikatan H pada siklopentena dan C-alfa di keton dengan kelimpahan 47,41% dan 25,19% pada H-NMR. Pembentukan siklopentenon memperlihatkan ciri khas proses slow pyrolysis dengan menghadirkan lebih banyak reaksi siklisasi yang terjadi dari hasil dehidrasi cincin glukosa yang terbuka. Bio-oil dengan dominan siklopentenon ini merupakan basis awal untuk pembentukan bioavtur dengan densitas dan nilai kalor yang tinggi seperti bi(siklopentana). Berdasarkan tinjauan pustaka, rute mekanisme reaksi upgrading dengan katalis dapat dilakukan melalui urutan proses hidrogenasi dengan katalis Cu-Ni-Al dengan yield siklopentanon 95,8%, kondensasi aldol siklopentanon dengan katalis MgO-ZrO2 mampu mencapai yield 2-siklopentilidin-siklopentanon sebesar 84,6%, dan hidrodeoksigenasi disertai katalis Ni/SiO2 menghasilkan bi(siklopentana) dengan yield sebesar 93%. Katalis untuk reaksi hidrogenasi dan hidrodeoksigenasi harus bersifat asam dan untuk reaksi kondensasi aldol bersifat asam-basa. Sebagai produk bioavtur potensial berupa bi(siklopentana) dengan rasio H/C sebesar 1,8 dinilai telah mendekati bioavtur komersial dengan rasio H/C 1,92. Kuantifikasi biomassa yang terkonversi menjadi bioavtur potensial berupa bi(siklopentana) melalui mekanisme senilai 15,96%.
To fulfill the need of aviation fuel, the synthesis of bioavtur from lignocellulosic biomass can be the current solution. Corn cobs as raw material was chosen because of its potential abundance in Indonesia reaching 7.2 million tons/year and high holocellulose content so that it will be more profitable when converted to bio-oil by pyrolysis. The purpose of this study is to obtain the the bio-oil compositions analysis and obtain a literature analysis of the potential of dominant compounds in the step of improving the quality of bio-oil and its catalysts from experimental research. Pyrolysis is pursued at a low heating rate of 50C/min to a temperature of 5000C with a stirring speed of 100 rpm. Based on GC-MS analysis, the composition of most compounds in bio-oil is benzoic acid with 44.45%, which is formed from oxidation of aldehydes preceded by oxidation of alcohol. In terms of the NMR analysis, the dominant chemical bonds detected were to form cyclopentenone, with C bonds on cyclopentene and carbonyl ketones which were 55.61% and 34.81% on C-NMR, and H bonds on cyclopentene and C-alpha to ketones with an abundance of 47.41% and 25.19% in H-NMR, respectively.The formation of cyclopentenone shows the special characteristics of slow pyrolysis process by presenting more cyclization reactions that occured from the dehydration results of an opened-glucose ring. Bio-oil with cyclopentenone dominant composition is the initial basis for bioavtur synthesize with high density and high heating value characteristics such as bi(cyclopentane). Based on literature review, the mechanism of upgrading reactions with catalysts can be carried out through a sequence of hydrogenation processes with a Cu-Ni-Al catalyst with a cyclopentanone yield of 95.8%, aldol condensation of cyclopentanone with MgO-ZrO2 catalyst was able to reach a yield of 2-cyclopentylidine-cyclopentanone for 84, 6%, and hydrodeoxygenation with Ni/SiO2 catalyst produced bi(cyclopentane) with a yield of 93%. The catalyst for the hydrogenation and hydrodeoxygenation reactions must be acidic and for the aldol condensation reaction is acidic-base. As a potential bioavtur product in the form of bi(cyclopentane) with an H/C ratio of 1.8, it is considered to have approached a commercial bioavtur with an H/C ratio of 1.92. Quantification of biomass converted into bi(cyclopentane) as bioavtur potential was 15.96%."
Depok: Fakultas Teknik Universitas Indonesia, 2020
S-pdf
UI - Skripsi Membership  Universitas Indonesia Library
cover
Tirta Angen Pangestu
Sintesis ligan para di 2 1 methyl 3 pyridyl 4 5 dihydro 1h pyrazol 5 yl benzena sebagai sensor ion logam pb 2 = Synthesis of para di 2 1 methyl 3 pyridyl 4 5 dihydro 1h pyrazol 5 yl benzene ligand as sensor for pb 2 metal ions / Tirta Angen Pangestu
"[Ligan para-di-2-(1-methyl-3-pyridyl-4,5-dihydro-1H-pyrazol-5-yl)benzena sudah berhasil disintesis melalui metode kondensasi Aldol. Hasil yang diperoleh dikarakterisasi menggunakanspektrofotometer UV-Vis, spektrofotometer inframerah dan spektrometer NMR. Aplikasi ligan ini adalah sebagai Sensor ion logam Pb2+dan dilakukan menggunakan spektrometer UV-Vis. Hasil dari studi sensor menunjukkan bahwa ligan mempunyai intensitas absorbansi yang kuat. Hal ini didukung oleh nilai absorptivitas molar (?) yang besar. Studi spektroskopi UV-Vis pada penambahan ion Pb2+ menunjukkan munculnya puncak baru pada daerah panjang gelombang 290 nm. Hal ini menunjukkan adanya pembentukan kompleks antara ion logam (Pb2+) dengan ligan para-di-2-(1-methyl-3-pyridyl-4,5-dihydro-1H-pyrazol-5-yl)benzena. Studi aplikasi sensor menunjukkan bahwa ligan ini dapat dijadikan sensoruntuk ion Pb2+ karena penambahan ion ini menyebabkan penurunan intensitas serapan absorbansi. Hasil studi efektivitas sensor menunjukkan bahwa ligan para-di-2-(1-methyl-3-pyridyl-4,5-dihydro-1H-pyrazol-5-yl)benzena merupakan sensor yang efektif terhadap penambahan ion Pb2+ pada panjang gelombang maksimum (?maks) 291 nm.
The Ligand para-di-2-(1-methyl-3-pyridyl-4,5-dihydro-1H-pyrazol-5-yl)benzene has been synthesized well by using Aldol condensation method. The result of synthesizing is characterized byUV-Visible spectrophotometer, Infrared spectrophotometer and NMR spectrometer. The application of this ligand as sensor for Pb2+ metal ions was studied by using UV-Visible spectrophotometer. Sensingstudiesindicatethat theligandhas astrongabsorbans intensity. This is supportedby alarge molarabsorptivity (?) value. UV-Vis spectroscopystudiesonthe addition ofPb2+ ions showedthe emergence ofa newpeakat290nmwavelength region. This indicatesthat thecomplexesformedbetweenmetalions(Pb2+) with para-di-2-(1-methyl-3-pyridyl-4,5-dihydro-1H-pyrazol-5-yl)benzene ligand. Application sensor studies showed that theseligandscanbe used assensorforPb2+ionsdue tothe addition oftheseionscauses a quenched inabsorbans intensity. The results ofthe study ofsensor efectivity showedthattheligandpara-di-2-(1-methyl-3-pyridyl-4,5-dihydro-1H-pyrazol-5-yl)benzeneissensorefectiveaddition ofPb2+ionsat themaximumwavelength(?max) 291 nm., 5he 1igand para-di-%-+!-rnethyl-(-pyridyl-*,3-dihydro-!:-pyra
has been synthesi
synthesi->isible spectrophotorneter, )n2rared
spectrophotorneter and NM? spectrorneter. 5he application o2 this ligand as
sensor 2or Pb%= rnetal ions was studied by using .>->isible spectrophotorneter.
Sensing studies indicate that the ligand has a strong absorbans intensity. 5his is
supported by a large rnolar absorpti$ity +@/ $alue. .>->is spectroscopy studies on
the addition o2 Pb%= ions showed the ernergence o2 a new peak at %A7 nrn
wa$elength region. 5his indicates that the cornpleCes 2orrned between rnetal ions
+Pb%=/ with para-di-%-+!-rnethyl-(-pyridyl-*,3-dihydro-!:-pyra
ligand. Application sensor studies showed that these ligands can be used as sensor
2or Pb%= ions due to the addition o2 these ions causes a Duenched in absorbans
intensity. 5he results o2 the study o2 sensor e2ecti$ity showed that the ligand paradi-%-+!-
rnethyl-(-pyridyl-*,3-dihydro-!:-pyra
addition o2 Pb%= ions at the rnaCirnurn wa$elength +BrnaC/ %A! nrn.]"
Depok: Fakultas Matematika Dan Ilmu Pengetahuan Alam Universitas Indonesia, 2014
S60637
UI - Skripsi Membership  Universitas Indonesia Library