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All Journal CAKRA KIMIA (Indonesian E-Journal of Applied Chemistry) Jurnal Kimia (Journal of Chemistry) Jurnal Farmasi Udayana Ecotrophic, Journal of Environmental Science CHEMISTRY PROGRESS Jurnal Pendidikan Seni Rupa JURNAL FISIKA JOIV : International Journal on Informatics Visualization Jurnal Sains Teknologi dan Lingkungan (JSTL) Indonesian Journal of Chemistry International Journal of Natural Science and Engineering Jurnal EDUTECH Undiksha Gema Agro Indonesian Physical Review Jurnal Media Sains Jurnal Sewaka Bhakti Jurnal Penelitian Agama Hindu Journal of Applied Data Sciences AJARCDE (Asian Journal of Applied Research for Community Development and Empowerment) East Asian Journal of Multidisciplinary Research (EAJMR) Formosa Journal of Applied Sciences (FJAS) Jurnal Ilmu Pendidikan Indonesia Akses: Jurnal Penelitian dan Pengabdian Kepada Masyarakat Universitas Ngurah Rai Asian Journal of Community Services (AJCS) INCOME: Indonesian Journal of Community Service and Engagement Suluh Pendidikan: Jurnal Ilmu-ilmu Pendidikan Jurnal Wicara Desa
I Wayan Sudiarta
Program Studi Kimia FMIPA Universitas Udayana, Jimbaran, Bali, Indonesia
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Analisis Kadar Logam Besi dalam Susu Bubuk Formula Kehamilan Secara Spektrofotometri Serapan Atom Sudiarta, I Wayan; Ratnayani, Oka; Veliyana, Ayu Kadek
Jurnal Media Sains Vol 3, No 1 (2019): JURNAL MEDIA SAINS
Publisher : LPPM Universitas Dhyana Pura

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (481.405 KB) | DOI: 10.36002/jms 3.v3i1.693

Abstract

ABSTRAKLogam besi merupakan jenis mineral yang sering ditambahkan ke dalam produk susu kehamilan untuk memenuhi angka kecukupan gizi dan nutrisi bagi ibu dan janin. Analisis kadar logam besi (Fe) pada susu bubuk formula ?A? dan ?B? menggunakan Spektrofotometri Serapan Atom (AAS) dengan teknik kurva kalibrasi. Preparasi sampel menggunakan metode destruksi kering melalui pengabuan sampel pada suhu 4200C dan destruksi basah menggunakan asam kuat HNO3 dan HCl pekat untuk melarutkan sampel. Hasil penelitian menunjukkan bahwa kadar besi pada susu ?A? dan ?B? dengan metode destruksi kering dan basah secara berturut-turut 247,97 ? 0,98 mg/kg dan 397,40 ? 13,31 mg/kg untuk sampel A, 284,96 ? 4,08 mg/kg dan 517,72 ? 12,00 mg/kg untuk sampel B. Hasil validasi metode menunjukkan bahwa metode destruksi kering relatif lebih baik digunakan untuk analisis logam Fe dibandingkan dengan metode basah dengan prosentase recovery (akurasi) dan simpangan baku (presisi) 100,95 ? 0,031% dan 1,00% untuk sampel susu A, 96,79 ? 0,021% dan 0,54% untuk sampel susu B. Sedangkan dengan metode destruksi basah diperoleh prosentase recovery (akurasi) dan simpangan baku (presisi) sebesar 98,41 ? 0,67% dan 2,43% untuk sampel susu A, 93,81 ? 0,110% dan 3,20% untuk sampel B.Kata kunci: Logam besi, Destruksi Basah, Destruksi kering, Susu bubuk kehamilanABSTRACTThe iron metal is a type of mineral that is often added to pregnancy dairy products to meet the number of nutritional adequacy and nutrition for the mother and fetus. Analysis of iron (Fe) contain in milk powder of formula "A" and "B" using by atomic absorption spectrophotometry method (AAS) with calibration curve technique. Sample preparation using dry destruction was carried out by ashing the sample at 420 oC and wet destruction using the concentrated nitric and chloride acid to dissolve the sample. The results showed that iron content in milk "A" and "B" with dry destruction methods was 246.48 ? 0.99 mg / kg and 283.93 ? 4.08 mg / kg and with wet destruction of 216.66 ? 6.44 mg / kg and 257.36 ? 2.28 mg / kg. The result of method validation showed that dry destruction method was better than wet method with recovery percentage (accuracy) and standard deviation (precision) 100,95 ? 3,10% and 0,41% for milk "A", 96,76 ? 1 , 76% and 1.43% for milk "B". While the wet destruction method obtained the percentage of recovery (accuracy) and standard deviation (precision) of 97.80% ? 2.00 and 3.39% for milk "A", and 93.31% ? 0.93 and 2.34 for milk "B".Key words: Iron metal, Wet Destruction, Dry destruction, Milk powder pregnancy
BIOSORPSI Cr(III) PADA BIOSORBENT SERAT SABUT KELAPA HIJAU TERAKTIVASI ASAM NITRAT Sudiarta, I Wayan; Diantariani, Ni Putu; Yulihastuti, Dwi Ariani
CHEMISTRY PROGRESS Vol 5, No 1 (2012)
Publisher : Sam Ratulangi University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35799/cp.5.1.2012.650

Abstract

Sudiarta dkk., 2012. Biosorpsi Cr(III) pada biosorbent serat sabut kelapa hijau teraktivasi asam nitrat. Telah dilakukan penelitian biosorpsi Cr(III) pada biosorben serat sabut kelapa hijau (cocos mucifera) teraktivasiasam nitrat. Penelitian ini meliputi penentuan rasio optimum asam nitrat:biosorben dalam aktivasi, penentuankeasaman permukaan biosorben teraktivasi asam nitrat, penentuan kondisi optimum biosorpsi Cr(III) padabiosorben teraktivasi asam yang meliputi pH optimum dan waktu kontak optimum, penentuan isoterm dankapasitas biosorpsi Cr(III) pada biosorben teraktivasi asam nitrat. Hasil penelitian menunjukkan bahwa aktivasibiosorben optimum terjadi pada rasio mmol asam nitrat : gram biosorben = 5 : 1. Keasaman permukaanbiosorben teraktivasi asam nitrat adalah 9,94± 0,33 mmol/g dan biosorben tanpa aktivasi adalah 5,3 ± 0,01mmol/g. pH optimum biosorpsi Cr(III) pada masing-masing biosorben adalah 3 dan waktu kontak optimumbiosorpsi Cr(III) pada biosorben teraktivasi asam nitrat adalah 60 menit dan biosorben tanpa aktivasi adalah120 menit. Kapasitas biosorpsi Cr(III) pada biosorben teraktivasi asam nitrat dan tanpa aktivasi adalah 13,74mg/g dan 11,91 mg/g.Kata kunci : biosorpsi, serat sabut kelapa, aktivasi, Cr (III), kapasitas biosorpsiSudiarta et al., 2012. Chromium (III) biosorption on nitric acid-biosorbent activated green coco fibre. Studies on biosorption of Cr (III) on nitric acid-biosorbent activated of green coco fibre (Cocos mucifera) had been carried out. These studies included determination of the optimum ratio of nitric acid: biosorben inactivation, the determination of surface acidity of nitric acid-biosorbent activated, determination of the optimumconditions of biosorption Cr(III) on activated biosorbnet that includes the optimum pH and the optimum contacttime, determinatiion of the isotherm and capacity biosorpsi of Cr (III ) on nitric acid-biosorbent activated.Theresults show that the activation occurs at the optimum ratio of mmol nitric acid: gram biosorbent was 5: 1. Thesurface acidity of nitric acid-biosorbent activated was 9.94 ± 0.33 mmol / g and unactivated biosorbent was 5.3± 0.01 mmol / g. The optimum pH biosorption of Cr(III) on each biosorbent is 3 and the optimum contact timebiosorption of Cr(III) on nitric acid-biosorbent activated was 60 minutes and unactivated biosorbent was 120minutes. The capacity biosorption of Cr(III) on nitric acid-biosorbent activated and unactivated biosorbnet were13.74 mg/g and 11.91 mg/g.Keywords : biosorption, coconut fibre, activation, Cr(III), capacity biosoprtion
MODIFIKASI SILIKA GEL MELALUI REAKSI HETEROGEN DENGAN DIFENILKARBAZON I Wayan Sudiarta; Putu Suarya
CAKRA KIMIA (Indonesian E-Journal of Applied Chemistry) Vol 6 No 2 (2018): Volume 6, Nomor 2, 2018
Publisher : Magister Program of Applied Chemistry, Udayana University, Bali-INDONESIA

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (277.517 KB)

Abstract

ABSTRAK: Penelitian mengenai modifikasi silika gel dengan difenilkarbazon melalui reaksi heterogen telah dilakukan. Modifikasi silika gel dilakukan melalui tiga tahapan yaitu aktivasi silika gel dengan HCl 4M (SiA), sintesis silika gel termodifikasi kloropropiltrimetoksisilan (Si-CPTS) dengan merekasikan SiA dengan kloropropiltrimetoksisilan, dan sintesis silika gel termodifikasi difenil karbazon dengan merekasikan Si-CPTS dengan difenilkarbazon. Variasi rasio jumlah silika gel dan difenilkarbazon dan waktu reaksi modifikasi dipelajari. Semua silika gel dianalisis dengan Spektroskopi IR untuk menentukan gugus fungsi dan analisis kehilangan berat dengan pemanasan pada 600 oC untuk mengetuahi jumlah modifier yang terikat. Hasil penelitian menunjukkan bahwa berdasarkan interpretasi spektra IR dan data kehilangan berat, sintesis silika gel termodifikasi difenilkarbazon melalui reaksi heterogen telah berhasil dikerjakan. Kondisi optimum modifikasi terjadi pada rasio difenilkarbazon dan silika gel 5 mL difenikarbazon 4% (b/v) dan 1 gram silika gel, dengan waktu optimum reaksi adalah 8 jam Kata Kunci : difenilkarbazon, kloropropil trimetoksisilan, reaksi heterogen, modifikasi silika gel. ABSTRACT: Modification of silica gel with diphenylcharbazone using heterogeneous reactions has been done. The modification of silica gel was carried out by three stages which were activation of silica gel with HCl 4 M (SiA), synthesis of chloropropyl trimethoxysilane-modified silica gel (Si-CPTS) by reacting the SiA with chloropropyl trimethoxysilane, and synthesis of diphenylcharbazone modified silica gel by reacting the Si-CPTS with diphenylcharbazone. The effects of the different ratio in the amount of silica gel to diphenylcharbazone and the reaction time for the modification were studied. All types of the silica gel were analyzed by IR spectroscopy to determine their functional groups and weight loss analyzes due to the heating process at 600 ° C to determine the amount of bonded modifiers.The results showed that the synthesis of diphenylcarbazon-modified silica gel using heterogeneous reaction has been successfully completed. The optimum ratio was 5 mL 4%(w/v) of diphenylcharbazone to 1 gram of silica gel, and the optimum reaction time was 8 hours.
ADSORPSI Cr(III) PADA SILIKA GEL TERMODIFIKASI DIFENILKARBAZON SECARA SOL-GEL Ida Ayu Raka Astiti Asih; I Wayan Sudiarta
CAKRA KIMIA (Indonesian E-Journal of Applied Chemistry) Vol 4 No 1 (2016)
Publisher : Magister Program of Applied Chemistry, Udayana University, Bali-INDONESIA

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Abstract

ABSTRAK : Telah dilakukan penelitian mengenai pemanfaatan silika gel termodifikasi difenilkarbazon (Si-CPTMS-DPZon) secara sol-gel untuk mengadsorpsi ion logam kromium(III).  Studi adsorpsi  dilakukan  dengan metode Batch. Pengaruh waktu dan pH awal larutan kromium dipelajari untuk mendapatkan kondisi optimum adsorpsi dan variasi konsentrasi ion kromium digunakan untuk mendapatkan kapasitas adsorpsi. Model isotermal Langmuir dan Freundlich digunakan untuk menentukan isoterm adsorpsi. Hasil penelitian menunjukkan bahwa adsorpsi Cr(III) pada adsorben Si-CPTMS-DPZon optimum terjadi pada pH 4 dan waktu interaksi 90 menit, dengan kapasitas adsorpsi sebesar 36,28 mg/g dan energi adsorpsi sebesar 29,16 kJ/mol. Adsorpsi yang terjadi lebih cenderung mengikuti isoterm Langmuir dengan nilai R2 sebesar 0,9971 dibanding dengan isoterm Freundlich dengan R2 0,5612.  Adsorpsi Cr(III) pada adsorben dominan melalui adsorpsi kimia.     ABSTRACT : Research about utilizing of diphenylcarbazone-modified silica gel prepared by sol-gel method (Si-CPTMS-DPZon) to adsorp chromium (III) ions has been carried out. This study was conducted using batch adsorption. The influence of time and initial pH of chromium solution were studied to obtain the optimum adsorption conditions, and the variation of the concentration of chromium ion was used to obtain the adsorption capacity. Langmuir and Freundlich isotherm models were used to determine the model of isotherm adsorption. The results showed that the optimum adsorption of Cr (III) on the adsorbent Si-CPTMS-DPZ occurred at pH 4 with 90 minutes of contact time. The adsorption capacity of Cr(III) on Si-CPTMS-DPZ was 36.28 mg/g with the adsorption energy of 29.16 kJ/mol. The adsorption profile tends to follow the Langmuir isotherm with R2 values of 0.9971 rather than the Freundlich isotherm with R2 of 0.5612. Adsorption of Cr (III) on the adsorbent dominantly occurred through chemical adsorption.  
KANDUNGAN LOGAM Cu DAN Pb DALAM TANAMAN BAYAM DAN BIOAVAILABILITASNYA DALAM TANAH PERTANIAN DENGAN PEMBERIAN PUPUK KANDANG SAPI I M. Siaka; I W. B. Arimbawa; I W. Sudiarta
Jurnal Kimia (Journal of Chemistry) Vol. 15, No.1, Januari 2021
Publisher : Program Studi Kimia, FMIPA, Universitas Udayana (Program of Study in Chemistry, Faculty of Mathematics and Natural Sciences, Udayana University), Bali, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24843/JCHEM.2021.v15.i01.p11

Abstract

Cemaran logam berat pada tanah pertanian dapat berdampak pada kualitas tanaman hasil pertanian. Penelitian ini bertujuan untuk mengetahui pengaruh penambahan pupuk kandang sapi terhadap tingkat bioavailabilitas logam Cu dan Pb dalam tanah pertanian serta kandungan logam berat tersebut dalam tanaman bayam yang dihasilkan dari tanah tersebut. Kandungan logam diperoleh melalui metode ekstraksi bertahap dan digesti basah serta pengukuran konsentrasi logam dengan menggunakan alat Spektrofotometer Serapan Atom (AAS) Shimadzu A 7000. Pada penelitian ini diperoleh bahwa kandungan logam Cu dan Pb dalam tanaman bayam yang tanahnya diberi pupuk kandang sapi lebih rendah dibandingkan dengan tanah tanpa pupuk tersebut. Rata-rata kandungan Cu dan Pb dalam seluruh bagian tanaman bayam tanpa pemberian pupuk sebesar 53,5985 ± 0,3943 dan 59,7982 ± 2,8389 mg/kg, sedangkan yang dengan pemberian pupuk berturut-turut 41,7626 ± 1,3590 dan 52,4335 ± 0,8434 mg/kg. Tingkat bioavailabilitas Cu dan Pb juga mengalami penurunan dengan penambahan pupuk kandang sapi. Logam Cu dan Pb yang bioavailable mengalami penurunan, sedangkan yang berpotensi bioavailable kedua logam tersebut mengalami peningkatan yang signifikan. Dengan demikian pemberian pupuk kandang sapi dapat menurunkan bioavailabilitas logam Cu dan Pb, dan akumulasinya di dalam tanaman bayam.
BIOSORPSI KROMIUM(VI) PADA SERAT SABUT KELAPA HIJAU (Cocos nucifera) I Wayan Sudiarta; Dwi Ariani Yulihastuti
Jurnal Kimia (Journal of Chemistry) Vol. 4, No. 2 Juli 2010
Publisher : Program Studi Kimia, FMIPA, Universitas Udayana (Program of Study in Chemistry, Faculty of Mathematics and Natural Sciences, Udayana University), Bali, Indonesia

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Abstract

Studies on biosorption of chromium (VI) on green coconut coir fibre (Cocos nucifera) biosorbent have beencarried out. These studies included determination of biosorben acidity, optimum pH, contact time of biosorption,isoterm and biosorption capacity, and interaction type between chromium (VI) and green coconut coir fibre (Cocosnucifera) biosorben Mechanisms of interaction were determined through study on desorption chromium (VI) of thepreviously adsorbed using aquadest, 1 M HCl and 0,05 M Na2EDTA.The result showed that the total acidity of green coconut coir fibre biosorbent was 8,7158 ± 0,2569 mmol/g,the optimum pH was 2, and the contact time was 120 minute. Biosorption capacity of green coconut coir fibre (Cocosnucifera) to chromium (VI) was 12,6152 mg/g. Interaction type that occurred between chromium (VI) ion and greencoconut coir fibre biosorben (Cocos nucifera) were hydrogen bond, Van der Walls bond, cation exchange andcomplex bond.
BIOSORPSI Cr(III) PADA BIOSORBEN SERAT SABUT KELAPA TERAKTIVASI SODIUM HIDROKSIDA (NaOH) I Wayan Sudiarta; Emmy Sahara
Jurnal Kimia (Journal of Chemistry) Vol. 5, No. 2 Juli 2011
Publisher : Program Studi Kimia, FMIPA, Universitas Udayana (Program of Study in Chemistry, Faculty of Mathematics and Natural Sciences, Udayana University), Bali, Indonesia

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Abstract

Studies on biosorption of chromium (III) on NaOH-activated biosorbent of coconut coir fibre have been carried out. These studies included the determination of optimum concentration of NaOH for activating the biosorbent, the determination of biosorbent acidity, the optimum pH, the contact time of biosorption, and the adsorption isotherm type.The result showed that the NaOH optimum concentration for activation of coconut fiber was 1,2 M. The surface acidity of BBN and B00 were of 9,99 ± 0,17 and 3,17 ± 0,21 mmol/g respectively. The surface specific of BBN and B00 were of 20,21 and 19,14 m2/g respectively. The optimum pH of biosorption Cr(III) on BBN and B00 biosorbent was 3 and the contact time were 30, and 120 minutes. The type of isotherm adsorption for the biosorption of Cr(III) on BBN and B00 biosorbent was isotherm S.
KANDUNGAN TOTAL FENOL DAN FLAVONOID DARI BUAH KERSEN (Muntingia calabura) SERTA AKTIVITAS ANTIOKSIDANNYA Made Ratih Mettaswari Senet; I Made Oka Adi Parwata; I Wayan Sudiarta
Jurnal Kimia (Journal of Chemistry) Vol. 11. No.2 Juli 2017
Publisher : Program Studi Kimia, FMIPA, Universitas Udayana (Program of Study in Chemistry, Faculty of Mathematics and Natural Sciences, Udayana University), Bali, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (363.217 KB) | DOI: 10.24843/JCHEM.2017.v11.i02.p14

Abstract

Buah kersen (Muntingia calabura) merupakan salah satu buah yang memiliki manfaat tinggi untuk kesehatan dan dapat dikonsumsi sebagai alternatif pengganti obat. Penelitian ini bertujuan untuk mengetahui kandungan total fenol dan flavonoid dari buah kersen serta menguji aktivitas antioksidannya. Sampel buah kersen sebanyak 1,56 kg di ekstraksi secara bertingkat dengan metode maserasi menggunakan pelarut n-heksana, etil asetat, dan etanol yang menghasilkan ekstrak n-heksan (2,16 g), etil asetat (4,52 g), dan etanol (50,25 g). Hasil penapisan fitokimia menunjukan ekstrak etanol dan ekstrak etil asetat positif mengandung flavonoid dan fenol. Ekstrak etanol dan ekstrak etil asetat selanjutnya diukur kandungan total fenol dan flavonoidnya dengan metode spektrofotometri UV-Vis. Hasil pengukuran menunjukakan kandungan total fenol ekstrak etanol dan etil berturut-turut sebesar 0,24 % GAE dan 0,85 % GAE sedangkan kandungan total flavonoidnya berturut-turut 0,13 % QE dan 0,03 % QE. Aktivitas antioksidan ekstrak etil asetat dan etanol yang diukur dengan metode DPPH memberikan nilai IC50 berturut-turut sebesar 0,13 mg/mL dan 0,25 mg/mL.
BIOSORPSI Cr(III) OLEH BIOSORBEN KULIT KAPUK (Ceiba pentandra (L.) Gaertn) TERAKTIVASI ASAM NITRAT I W. Sudiarta; A. A. S. D. Prameswari; I M. S. Negara
Jurnal Kimia (Journal of Chemistry) Vol. 16, No.1, Januari 2022
Publisher : Program Studi Kimia, FMIPA, Universitas Udayana (Program of Study in Chemistry, Faculty of Mathematics and Natural Sciences, Udayana University), Bali, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.24843/JCHEM.2022.v16.i01.p12

Abstract

Kulit buah kapuk (Ceiba pentandra (L.) Gaertn) merupakan limbah pertanian yang kurang dimanfaatkan. Kulit buah kapuk mengandung senyawa organik seperti selulosa, hemiselulosa, dan lignin yang cukup tinggi. Komponen tersebut mengandung gugus hidroksil (-OH), karbonil (-C=O), dan karboksil (-COOH) yang dapat digunakan dalam proses biosorpsi. Penelitian ini bertujuan untuk mengetahui karakteristik biosorben kulit kapuk teraktivasi HNO3, kondisi optimum biosorpsi ion logam Cr (III), dan kapasitas biosorpsi biosorben kulit kapuk. Parameter yang dipelajari dalam penentuan karakteristik biosorben meliputi keasaman permukaan, jumlah situs akif, luas permukaan, dan gugus fungsi yang berperan dalam biosorpsi. Optimasi kondisi biosorpsi ion logam Cr (III) dilakukan dengan menentukan pH, waktu kontak, dan konsentrasi awal larutan Cr (III). Hasil penelitian menunjukkan bahwa biosorben teraktivasi HNO3 0,02 M (BAN3) memiliki karakteristik keasaman permukaan, jumlah situs aktif, dan luas permukaan berturut-turut sebesar 17,79490,5999 mmol/g, 1,07160,0361×1022 molekul/gram, dan 36,941470,00158 m2/g. Kondisi optimum biosorpsi ion logam Cr (III) pada pH 5, waktu kontak 90 menit, konsentrasi awal larutan Cr (III) 1800 mg/L. Proses biosorpsi mengikuti pola isoterm Langmuir dengan nilai R2 sebesar 0,975 dan kapasitas biosorpsi sebesar 59,28 mg/g. Karakterisasi menggunakan FTIR menunjukkan bahwa biosorben mengandung gugus fungsi seperti –OH, C=O, C-O-H, dan C-O-C yang berperan dalam proses biosorpsi. Kata kunci: Biosorpsi,biosorben, Cr (III), kulit buah kapuk. Kapok husk (Ceiba pentandra (L.) Gaertn) is an under-utilized agricultural waste. Kapok husk contains quite high percentage of organic compounds such as cellulose, hemicellulose, and lignin. Those compounds contain hydroxyl groups (-OH), carbonyl group (-C=O), and carboxyl group (-COOH) that can be used in the biosorptions process. This study aimed to determine the characteristic of the biosorbent activated by HNO3, the optimum conditions of the Cr (III) biosorption, and the biosorption capacity of the biosorbent. The parameters studied for determining characteristics of the biosorbent were surface acidity, number of active sites, surface specific area, and functional groups that play a role in the biosorption. Optimation condition of the Cr (III) biosorption was carried out by determining the pH, contact time, and initial concentration of Cr (III). The result showed that the activated kapok husk powder with HNO3 0,02 M (BAN3) has characteristics of surface acidity, the number of active site and surface specific area of 17,79490,5999 mmol/g, 1,07160,0361×1022 molecule/gram and 36,941470,00158 m2/g respectively. The optimum conditions of the Cr (III) biosorption were obtained at pH 5, contact time 90 minutes, and initial concentration of Cr (III) at 1800 mg/L. Isotherm biosorption followed the Langmuir isotherm model with R2 value of 0,975 and biosorption capacity of 59,28 mg/g. Characterization using FTIR showed that biosorbent contained -OH, C=O, C-O-H, dan C-O-C functional groups which played a role in the biosorption process. Keywords: Biosorption, biosorbent, Cr (III), kapok husk.
OPTIMASI ADSORPSI Cr(VI) PADA SILIKA GEL DARI ABU SEKAM PADI TERMODIFIKASI DIFENILKARBAZIDA (Si-DPZida) Henny Puspa Dewi Giri; I Wayan Sudiarta; Ida Ayu Raka Astiti Asih
Jurnal Kimia (Journal of Chemistry) Vol. 8, No. 2 Juli 2014
Publisher : Program Studi Kimia, FMIPA, Universitas Udayana (Program of Study in Chemistry, Faculty of Mathematics and Natural Sciences, Udayana University), Bali, Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (104.746 KB) | DOI: 10.24843/JCHEM.2014.v08.i02.p09

Abstract

Adsorption of chromium (VI) on silica gel modified by diphenilcarbazide (Si-DPZida) have been studied. Parameters analyzed were surface acidity by acid-base titration method, specific surface area by absorption of methylene blue method, optimum conditions of adsorption (pH, contact time), and isotherm adsorption. The results showed that Si-DPZida adsorbent has surface acidity (Kal) of 1,5996 mmol/g with the number of active sites of 9,6328 x 1020 atom/g with specific surface area of 4.4538 m2/g. The optimum adsorption process of chromium (VI) by both Si-DPZida occurred at pH 5  and 15 minutes of contact time.  The isotherm adsorptions on both adsorbents tend to follow Freundlich adsorption pattern.
Co-Authors A. A. Bawa Putra A. A. Made Semariyani A. A. S. D. Prameswari A.A. Made Semariyani AA Made Semariyani Abror, Haekal Malik Acintya, N. M. T. C. Ade Ayu Wulan Suci Adinegoro, Cahyo Aditya, Ketut Tegar Afrida, Galuh Anak Agung Gede Agung Satrya Dwipayana Anak Agung Istri Agung Mayun Laksmiwati Anak Agung Purwa Antara, Anak Agung Purwa Andelita, Nanik Aprilianingsih, Rika Ardana, I Gusti Nengah Sura Aryanu Fahmi Arwangga Ayu Suardani Singapurwa, Ni Made Ayu Suardani Singapurwa, Ni Made Azmi, Aida Firdaus Muhamad Nurul Azzahra, Fatima Bira, Ela Tara Wini Budi Setiawan C. M. P. Widya Chindrawato, A.A. Sagung Manik Desak Putu Oki Lestari Dewa Gede Hendra Divayana, Dewa Gede Hendra Dewi, I G. A. K. S. P. Dewi, Ni Komang Putri Candra Dewi, Ni Made Putri Pradnya Paramita Dini Imanniar Diputra, Gede Ngurah Oka Dusak, Putu Gede Bayu Janardhana Dwi Ariani Yulihastuti Emmy Sahara Fahrul Rozi Faizin, Ahmad Nur Fauzi, Ihsan Gede Eka Harsana Koriawan Hafiza, Nurul Handayana, I Gusti Ngurah Yudi Henny Puspa Dewi Giri Huda, Lalu Sahrul I G. D. V. Saputra I Gde Suranaya Pandit I Gede Pasek Mangku I Ketut Sudita I M. S. Negara I M. Siaka I Made Kardena I Made Oka Adi Parwata I Made Tegeh I Nengah Muliarta, I Nengah I Nengah Simpen I P. G. A. Suandi I Putu Candra, I Putu I W BUDIARSA SUYASA I W. B. Arimbawa I Wayan Agus Arimbawa, I Wayan Agus I Wayan Pariawan I Wayan Parwata I Wayan Sudiarta I. A. R. Astiti Asih Ida Bagus Anom Sutanaya Iltizam, Muhammad Indra, I Kadek ISLAMUL HADI Isnawan Hadi jamili, syahrul Janurianti, Ni Made Defy Janurianti, Ni Made Defy Jelita, Ni Putu Ayu Bunga JOKO SUSANTO Kant, Mariam Lupita Kant, Mariam Lupita Kartamayasa, Gede Kartika, Amalinda KARYOTO, KARYOTO Ketut Ratnayani Krisjayanto H Kurniawidi, Dian Wijaya Kusuma, David Ali Jaya Laksmi, A.A. Ayu Kanaka Mutiara Langen Bronto Sutrisno Lestarini, Asri Lestina Sari Luh Suariani, Luh Luh Suriati M.Pd S.T. S.Pd. I Gde Wawan Sudatha . Made Arsa Made Ratih Mettaswari Senet Made Sutha Yadnya Maktun, Kintan Haiatul Manikam, Raseetha Vani Siva Marzuki Marzuki Maulana, M.Aril Milasari, Sri Muhammad, Syafiq Mulia, I Komang Oki Budi Mulia, Komang Oki Budi N. K. Elantiani N. P. D. Pebriani Nainggolan, L. Nallakrishna, I P. A. Nayun, I Wayan Ni Ketut Suminten Ni Luh Putu Putri, Setianingsih Ni Made Ayu Suardani Singapurwa Ni Made Darmadi Ni Made Rustini, Ni Made Ni Nyoman Sri Nopianingsih Ni Putu Ariantari Ni Putu Diantariani Oka Diputra, Gede Ngurah Oka Ratnayani P. Suarya P. Suarya P. Suarya Padmarini, Ni Made Andira Patni, Gusti Ayu Yunda Darma Prabandewi, Ni Luh Putu Ratih Pradnyadari, Luh Made Ayu Pratiwi, , Ni Luh Putu Yumi Mega Pratiwi, Ni Luh Putu Yumi Mega Priawibawa, Ghozi Purnomo, Amelia Putri Purwani, S. T. D. Putra, A. A. B. Putra, I Ketut Suwarmadi Putri Go Putri, , Ni Kadek Sintya Pradnyani Putri, , Putu Nanda Icaka Putri, Juliana Putri, Putu Ananda Icaka Putu Eka Trisna Dewi, Putu Eka Putu Suarya Rahayu, Sefani Cahyo Auliya Rahmatin, Ina Ramadhani Ramadhoan, Ramadhoan Ramadian Ridho Illahi Rindiani, Saptia Rini Andriani Roendah, Baiq Hildha Aulia Rudianta, I Nyoman Sabriana, Ofhi Sahara, Nova Nabila Sari, Ini Luh Putu Eka Kartika Satrijo Saloko Semariyani , A. A. Made Setianingsih, Luh Putu Putri Setianingsih, Ni Luh Putu Putri Singapurwa , Ni Made Ayu Suardani Sinta Purnamasari, Sinta Sopiani, Rani Sri Ratna Dewi, Sri Ratna Sriminingsih, Orien Suarka, I Made Suarsa, I W. Suarya P Subhan Subhan Subin, Maria Reinaldis Jebaut Sugiatma, Iksan Sukmadewi, Desak Ketut Tristiana Susanti, Elifah Rika Susanto, Roni Eko Susilawati, Ni Wayan Swetasoma, Cokorda Gede Tatang Mulyana Tiba, Andika Umbu Toya, I Nyoman Veliyana, Ayu Kadek Viani, Agata W. A. Fauzi Wahyu Dwijani Sulihingtyas Wardika, Ruzga Wati, Ni Made Serma Wedarama, I.G.P. Wedashwara Wedashwara, Wirarama Wibawa, Neorista Anggun wiwekananda, gusti surya Wulantari, N. M. P. Yasa, I Wayan Sweca Yasna, I Made Yunantariningsih, I Dewa Ayu Ketut