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"Measurement of vapor flow in geothermal pipe faces great challenges due to fast fluids flow in high-temperature and high-pressure environment. In present study the flow rate measurement has been performed to characterization the geothermal vapor flow in a pipe. The experiment was carried out in a pipe which is connected to a geothermal production well, KMJ-14. The pipe has a 10” outside diameter and contains dry vapor at a pressure of 8 kg/cm2 and a temperature of 170 oC. Krypton-85 gas isotope (85Kr) has been injected into the pipe. Three collimated radiation detectors positioned respectively at 127, 177 and 227m from injection point were used to obtain experimental data which represent radiotracer residence time distribution (RTD) in the pipe. The last detector at the position of 227 m did not respond, which might be due to problems in cable connections. Flow properties calculated using mean residence time (MRT) shows that the flow rate of the vapor in pipe is 10.98 m/s, much faster than fluid flow commonly found in various industrial process plants. Best fitting evaluated using dedicated software developed by IAEA expert obtained the Péclet number Pe as 223. This means that the flow of vapor of geothermal fluids in pipe is plug flow in character. The molecular diffusion coefficient is 0.45 m2/s, calculated from the axial dispersion model"

"Hidrogel kitosan-cangkok-poli(N-vinil pirrolidon) telah disintesis melalui teknik polimerisasi radikal bebas. Dalam penelitian ini, monomer N-vinil pirrolidon (NVP) dicangkokkan pada kitosan menggunakan inisiator ammonium persulfat (APS) dan agen pengikat silang N,N’-metilen bisakrilamida (MBA) dalam sistem larutan. Untuk membuktikan bahwa monomer itu telah tercangkok, dilakukan karakterisasi dengan Fourier Transform Infrared Spectroscopy (FTIR), Differential Scanning Calorimetry (DSC), dan Scanning Electron Microscope (SEM) untuk mengetahui bentuk morfologi hidrogel. Pengaruh komposisi monomer NVP, agen pengikat silang, dan waktu polimerisasi terhadap kemampuan swelling telah diamati. Swelling optimum diperoleh sebesar 54,6% pada waktu polimerisasi 3 jam dengan komposisi monomer NVP 0,8 mL dan konsentrasi pengikat silang 2%.

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Hydrogels of chitosan-graft-poly(N-vinylpyrrolidone) had been synthesized via free radical polymerization technique. In this research, monomer N-vinylpyrrolidone (NVP) was grafted onto chitosan by using APS as initiator and N,N '-methylene bisacrylamide (MBA) as crosslinking agent in the solution system. In order to prove that the monomers were grafted, FTIR spectroscopy, DSC analysis were used, and Scanning Electron Microscope (SEM) to determine the morphology of hydrogels. The influence monomer compositions, concentration of crosslinking agent, and polymerization time on the ability of swelling was observed. The optimum swelling was obtained at 54,6% in the polymerization time of 3 hours with 0.8 mL NVP monomer composition and concentration of crosslinking of 2%."

"Material untuk penyerapan fosfat secara selektif disintesis menggunakan metode ion imprinted polymer, dengan kitosan sebagai bahan dasar utama. Untuk meningkatkan daya adsorpsi kitosan, maka dilakukan modifikasi kitosan menggunakan anhidrida suksinat, yang kemudian dikomplekskan dengan Fe(III). Fe(III)-kitosan suksinat dikontakkan dengan fosfat sehingga terbentuk kompleks cetakan-polimer, yang selanjutnya diikat silang menggunakan MBA untuk menstabilkan situs aktif yang terbentuk. Cetakan kemudian dielusi menggunakan KOH 1,0 M, dengan tujuan terbentuknya rongga bagi masuknya ion fosfat. Keberhasilan sintesis IIP terkonfirmasi menggunakan FTIR dimana terjadi penambahan puncak serapan gugus baru, yaitu karbonil (1750-1600 cm-1), amida (1600-1500 cm-1), fosfat (1100-1000 cm-1), dan ikatan Fe-O (650-400 cm-1). Selain itu, meningkatnya Tm pada hasil DSC menunjukkan adanya penambahan ikatan dan mengindikasikan keberhasilan sintesis, sehingga modifikasi kitosan ini menghasilkan naiknya sifat kestabilan termal yang dibuktikan dengan hasil pengamatan TGA dimana pada rentang suhu yang sama (30-500°C), material baru belum terdekomposisi sempurna. Hasil karakterisasi dengan SEM-EDX menunjukkan bahwa pengompleksan dan pengelusian fosfat berhasil dilakukan, dimana terkonfirmasi dengan munculnya unsur Fe dan P dan berkurangnya persen atom P setelah dilakukan elusi. Adsorben yang disintesis diuji sifat adsorpsi serta elusinya, dan diperoleh persen adsorpsi sebesar 87.55% dan persen elusi sebesar 85.1%. Nilai tersebut menunjukkan bahwa adsorben dapat menyerap fosfat dengan baik dan fosfat yang sudah teradsorpsi dapat dilepaskan kembali menggunakan basa.

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Material for selective phosphate adsorption was synthesized using ion imprinted polymer method, with chitosan as the raw material. In order to increase the adsorption ability of chitosan, chitosan has been modified using succinic anhydride to form chitosan-succinate, subsequently formed complex using Fe(III). Phosphate was added to Fe(III)-chitosan succinate to form template-polymer complex, then it was cross-linked by using MBA. Moreover, the template was leached using KOH 1,0 M to form the cavity for phosphate ion.

The result of IIP was confirmed using FTIR which occur new absorption peaks of functional groups, such as carbonyl (1750-1600 cm-1), amide (1600-1500 cm-1), phosphate (1100-1000 cm-1), and Fe-O bond (650-400 cm-1). In addition, the increased of Tm on the DSC result showed there was some addition of bonds and indicate the success of synthesis, so that the modification of chitosan increases the thermal properties. It was proven furthermore by TGA thermogram in which at the same temperatur range (30-500°C), the new material not decomposited at all.

SEM-EDX data showed that the complexation and leaching process were success, which confirmed by measuring the Fe and P elements, also the P element atomic percent was decrease after leaching. The synthesized adsorbent was tested the adsorption and desorption properties, and the percent adsorption was 87.55% and percent desorption was 85.1%. These values indicate that the adsorbent can adsorbs phosphate well, and the phosphate can be released using base."

"Kopolimerisasi merupakan salah satu cara untuk mendapatkan polimer dengan sifat swelling lebih baik. Sintesis hidrogel kopoli(N-vinilpirrolidon/N-vinilkaprolaktam) menggunakan variasi jenis dan konsentrasi agen pengikat silang serta waktu reaksi. Hidrogel hasil polimerisasi dikarakterisasi dengan FTIR, DSC, SEM serta diuji melalui analisa gravimetri. Didapatkan hasil sintesis hidrogel dengan agen pengikat silang MBA mempunyai derajat ikat silang yang lebih baik dibandingkan dengan EGDMA dalam waktu 24 jam reaksi. Derajat silang hidrogel dengan MBA 5% yang didapat sebesar 84.81% memiliki persen swelling yang rendah. Persen swelling maksimal sebesar 87.04% didapatkan pada hidrogel dengan agen pengikat silang EGDMA 3% dan waktu reaksi 8 jam. Derajat ikat silang berbanding terbalik dengan hasil kemampuan mengembang atau menyerap air (swelling). Hidrogel yang tersintesis dengan waktu reaksi semakin lama, konsentrasi agen pengikat silang semakin tinggi, maka derajat ikat silang hidrogel semakin tinggi mengakibatkan semakin menurunnya kemampuan hidrogel menyerap air. Hasil karakterisasi hidrogel dengan DSC menunjukkan hanya terdapat satu nilai Tg 180 oC dan terjadi pergeseran nilai Tg dari nilai Tg secara teoritis 151 oC karena pengaruh agen pengikat silang. Hidrogel kopoli(N-vinilpirrolidon/N-vinilkaprolaktam) terikat silang telah berhasil disintesis.

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Copolymerization is one of the ways to get better swelling properties of the polymer. Synthesis of hidrogel copoly(N-N-vinilpirrolidon/vinilkaprolaktam) using a variety of types of binding agent and concentration of Crosslinker and time of reaction. Hidrogel characterized by FTIR, DSC, SEM as well as tested through analysis of gravimetric analysis. Synthesis of the results obtained with the crosslinking agents hidrogel MBA has degree of crosslinking is better compared to EGDMA within 24 hours of the reaction. Degree of Crosslinking hidrogel with MBA 5% earned 84.81% has a low percent swelling. Percent of maximum swelling 87.04% obtained on crosslinking agents with hidrogel EGDMA 3% and the time of reaction of 8 hours. Degree of Crosslinking is inversely proportional to the results the ability expands or absorb water (swelling). Hydrogel was synthesized with longer time of reaction and high concentration of crosslinker, it makes degree of crosslinking have increase and the swelling ability of hydrogel was decrease. Characterization of hidrogel with DSC indicates there is only one value of Tg is 180 oC and Tg values shift from Tg value theoretically 151 oC due to the influence of the crosslinking agents. Hydrogel crosslinked copoly(N-N vinilpirrolidon/vinilkaprolaktam) has been successfully synthesized."

"Indonesia merupakan negara terbesar produsen minyak kelapa sawit. Dalam aktifitas agroindustri kelapa sawit tidak dapat dihindari pemakaian herbisida. Residu herbisida dari perkebunan kelapa sawit memiliki potensi mencemari air tanah disekitarnya. Salah satu herbisida yang dipakai pada perkebunan kelapa sawit dan berpotensi mencemari air tanah adalah paraquat, karenanya perlu dilakukan studi cara penghilangan paraquat dari air yang tercemar. Degradasi fotokatalitik merupaka salah satu cara potensial untuk eliminasi paraquat. Dalam penelitian ini dilakukan studi degradasi fotokatalitik paraquat diklorida dalam air menggunakan TiO2 nanotube (TiO2-NT) yang terimobilisasi pada permukaan logam titanium. Lapisan TiO2-NT dipreparasi dengan cara anodisasi logam titanium, dilanjutkan dengan kalsinasi pada suhu 500oC. Karakterisasi TiO2-NT dilakukan dengan spektrometri UV-Vis-DRS, XRD, dan SEM, serta cara fotoelektrokimia. Hasil karakterisasi menunjukkan bahwa TiO2 yang dipreparasi memiliki energi celah sebesar 3,3 eV (UV-Vis-DRS), berfasa kristal anatase dan ukuran kristalit sebesar 29,95 nm (XRD), dan menunjukkan morfologi highly ordered nanotube (SEM). Karakterisasi secara fotoelektrokimia menunjukkan bahwa iluminasi sinar UV pada lapisan TiO2-NT memberikan arus cahaya, yang mengindikasikan kemampuan TiO2-NT menghasilkan pasangan elektron dan hole positif (aktif sebagai fotokatalis). Uji kemampuan degradasi secara fotokatalitik TiO2-NT terhadap air yang mengadung paraquat, menunjukkan bahwa TiO2-NT yang dirangkai dalam reaktor fotokatalitik mampu mengurangi konsentrasi paraquat dalam larutan yang diuji. Untuk kondisi uji yang dilakukan dengan sistem batch (4 lembaran Ti/TiO2-NT vs volume larutan 200 ml) pada konsentrasi paraquat 5, 10, 20 ppm penurunan konsentrasi paraquat berturut-turut sebesar 7,62%, 19,42%, dan 15,98%. Sedangkan untuk system alir (40 lembaran Ti/TiO2-NT vs volume larutan 8L) pada konsentrasi paraquat 5, 10, 20 ppm penurunan konsentrasi paraquat berturut-turut sebesar 12,51%, 8,54%, dan 9,38%). Secara umum dengan kondisi uji yang dilakukan pada penelitian ini, baik untuk sistem batch dan sistem alir, Ti/TiO2-NT yang dipreparasi belum menunjukan kemampuan signifikan dalam mendegradasi paraquat. Rasio luas geometri (S) lembaran Ti/TiO2-NT dibanding volume larutan uji (V), S/V, yang sangat kecil, serta ketebalam lapisan (loading TiO2) yang kecil mungkin menjadi penyebab utama hasil tersebut.

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Indonesia is the world’s first largest palm oil producer and in intensive culture areas of oil palm trees, the surface and groundwater is contaminated by pesticides used in plantations. One of the compound that can contaminated groundwater is paraquat, an active compound from herbicide. Photocatalytic degradation of organic compounds in water is a clean and promising technology for the treatment of a variety of polluted media. In this research the photocatalytic degradation of paraquat dichloride in water using TiO2 nanotubes (TiO2-NT) were immobilized on the surface of titanium metal is being studied. TiO2-NT prepared by anodizing titanium metal, followed by calcination at a temperature of 500oC. Characterization of TiO2-NT performed with UV-Vis spectrometry-DRS, XRD, and SEM, and photoelectrochemical. The characterization results showed that the prepared TiO2 has a band gap of 3.3 eV (UV-Vis-DRS), have anatase crystalline phase and crystallite size of 29.95 nm (XRD), and showed highly ordered nanotube morphology (SEM). Photoelectrochemical characterization showed that the UV light illumination on TiO2-NT layer provides curent of light, which indicates the ability of TiO2-NT produce pairs of electrons and positive holes (active as photocatalysts). Test the ability of TiO2-NT photocatalytic degradation of water, which contained paraquat, showed that TiO2-NT are strung together in a photocatalytic reactor capable of reducing the concentration of paraquat in the tested solution. For the test conditions are performed with batch systems (4 sheets Ti/TiO2-NT vs volume of the solution 200 ml) at a concentration of paraquat 5, 10, 20 ppm decrease in the concentration of paraquat in a row of 7.62%, 19.42%, and 15 , 98%. As for the flow system (40 sheets TiO2-NT/Ti vs 8L solution volume) at a concentration of paraquat 5, 10, 20 ppm decrease in the concentration of paraquat, respectively for 12.51%, 8.54%, and 9.38%). In general, the conditions of the tests conducted in this study, both for batch and flow systems, the prepared TiO2-NT/Ti not shown significant ability to degrade paraquat. Ratio geometry (S) TiO2-NT/Ti sheet compared to the volume of test solution (V), S / V, which is very small, as well as the thickness of the layer (TiO2 loading) that are small may be the main cause of these results. "

"Kopolimer blok merupakan salah satu bentuk polimer yang molekulnya terdiri dari dua macam atau lebih monomer yang berbeda yang terikat secara kovalen. Pada penelitian ini akan disintesis kopolimer polistirena-blok-poli(butil akrilat) melalui salah satu metode polimerisasi radikal bebas terkontrol yaitu teknik Atom Transfer Radical Polymerization (ATRP) dan melihat pengaruh konsentrasi katalis dan monomer pada pembentukan kopolimer blok. Variasi konsentrasi katalis dan monomer dilakukan guna mencari komposisi terbaik dalam mencapai kondisi optimum. Kopolimer polistirena-blok-poli(butil akrilat) telah berhasil disintesis melalui teknik ATRP. Parameter keberhasilan dilihat dari berbagai macam hasil karakterisasi seperti FTIR, DSC, dan 1H-NMR. Kondisi optimum yang diperoleh dari perlakuan variasi konsentrasi katalis pada makroinisiator polistirena adalah pada saat konsentrasi katalis 0,2%, dengan indeks polidispersitasnya yang relatif kecil yaitu sebesar 1,16. Penambahan variasi monomer pada kopolimer blok tidak menunjukkan hasil yang signifikan, hal ini dilihat dari sifat termal dari kopolimer yang disintesis.

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Block copolymer is one of polymer types, whose the molecules consist of two kinds or more different monomers that covalently bonded. In this study, polystyrene-block-poly (butyl acrylate) was synthesized via controlled radical polymerization method, namely Atom Transfer Radical polymerization (ATRP). The effect of addition of catalyst and also the monomer concentration on the formation of block copolymers were also studied. Variations of the concentration of catalyst and monomer composition was done in order to find the optimum condition. Polystyrene-block-poly (butyl acrylate) has been successfully synthesized by ATRP method. The success was seen from a variety of characterization such as FTIR, DSC, and 1H-NMR. The optimum conditions were obtained at 0.2% catalyst concentration, with polydispersity index was 1.16. The addition of different monomer concentration on the formation of block copolymer did not show significant results, it can be seen from the thermal properties of the synthesized copolymers."

"ABSTRACTIn order to shorten the measurement time of biochemical oxygen demand (BOD), a BOD sensor based on yeast metabolism was developed. Local yeast, Indonesian Origin, Candida fukuyamaensis UICC Y-247, was used as a transducer. The yeast was immobilized as a thin film in agarose matrix with the auxiliary of Nafion® acting as the membrane for ion exchange process. The film was then attached to gold-modified glassy carbons and used as transducer on the working electrodes. The measurements were conducted by observing the depletion of glucose concentration using multipulse amperometric method and then converted to BOD values. Optimum condition was observed in a waiting measurement time of 30 min at an applied potential of 450 mV (vs.Ag/AgCl). Linearity was shown in glucose concentration range of 0.1?0.5 mM, which was equivalent to BOD concentration range of 10?50 mg/L. A detection limit of 1.13 mg/L BOD could be achieved. Good repeatability was shown by a relative standard deviation (RSD) of2.7% (n = 15). However, decreasing current response of ~50% was found after 3 days. Comparing to the conventional BOD measurement, this BOD sensor can be used as an alternative method for BOD measurements. "

"Penyebaran virus influenza telah menjadi pandemik global dan mempengaruhi kehidupan sosial masyarakat. Deteksi Neuramindase sebagai salah satu enzim dalam virus influenza menggunakan reaksi inhibisi oleh Zanamivir, dilakukan secara elektrokimia menggunakan elektroda Au dan Au-BDD sebagai elektroda kerja, platina sebagai elektroda pendukung dan Ag/AgCl sebagai elektroda pembanding. Zanamivir tidak elektroaktif pada permukaan elektroda. Tetapi keberadaan Zanamivir diperkirakan menyebabkan deaktivasi reaksi reduksi Au2O3 menjadi Au. Sehingga perilakunya dapat diamati melalui cyclic voltammetry. pH optimum 7, batas deteksi Zanamivir pada elektroda Au 5,62 x 10-5 M dan pada elektroda Au-BDD adalah 6,26 x 10-6 M. % RSD pengukuran zanamivir pada elektroda Au dan Au-BDD adalah 5,6 % dan 3,45 %. Konsentrasi maksimum Neuraminidase yang dapat diinhibisi oleh Zanamivir 1x10-5M adalah 20 mU, dengan batas deteksi 2,48 mU. pH optimum inhibisi Neuraminidase oleh Zanamivir adalah 6,8 dengan waktu inhibisi maksimum 25 menit.. Selektifitas sensor diukur dengan melakukan pengukuran pada larutan dengan interferensi mucin. Dengan konsentrasi mucin Bovine Submaxillary Glands dan mucin Porcine Stomach masing-masing sebesar 0,178571 mg/ml dan 0,019 mg/ml, hanya terjadi penurunan respon arus masing-masing sebesar 1,57 % dan 1,92 %.

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Influenza viruses become the new global pandemics with significant socio-economic impact. Therefore, continuous monitoring is required. In this work, detection method of Neuraminidase as influenza virus enzyme was developed by electrochemical method using Au and Au-BDD as working electrode, platinum as counter electrode, and Ag/AgCl as reference electrode. Zanamivir is electrochemically inactive. However, zanamivir deactivate the reduction of Au2O3 to be Au. Optimum pH held on pH 7 and diffusion coefficient 1,8786 x 10-8 m2/s. LOD of Zanamivir on Au electrode 5,62 x 10-5 M and 6,26 x 10-6 M on Au-BDD electrode. Reproducibilities of zanamivir measurement on Au and Au-BDD electrode are 5,6 % and 3,45 %. The maximum concentration of Neuraminidase inhibited by 1x10-5M zanamivir are 20 mU with 2,48 mU limit of detection. The optimum inhibition pH is 6,8 and inhibition time is 25 minute. Selectivity of the sensor measured by doing the measurement under mucin interference influences. 0,178571 mg/mL of mucin Bovine Submaxillary Glands and 0,019 mg/mL of mucin Porcine Stomach may decrease the respone current 1,57 % and 1,92 %."

"Reaksi esterifikasi antara glukosa dengan asam lemak dapat menghasilkan ester asam lemak-glukosa. Pada penelitian ini, asam lemak diperoleh dari reaksi hidrolisis minyak kelapa sawit yang dijual dipasaran. Reaksi esterifikasi dilakukan secara enzimatik menggunakan katalis lipase Candida rugosa E.C.3.1.1.3 terimobilisasi pada nanopartikel Fe3O4-Kitosan. Nanopartikel Fe3O4- Kitosan disintesis dengan metode kopresipitasi kemudian dilakukan karakterisasi dengan FTIR (Fourier Transform Infra Red), XRD (X-Ray Diffraction), dan EDS (Energy Dispersive X-Ray Spectroscopy). Imobilisasi lipase Candida rugosa pada nanopartikel Fe3O4-Kitosan menggunakan metode ikat silang dengan glutaraldehida sebagai agen pengikat silang. Hasil imobilisasi dilakukan uji aktivitas dan persen loading. Persen loading imobilisasi lipase yang diperleh adalah 62,20% dan aktivitas hidrolisis lipase terimobilisasi sebesar 6,18 U/mL dan aktivitas spesifiknya sebesar 2,65 U/mg serta efisiensi imobilisasi sebesar 34,54%. Dari hasil optimasi esterifikasi diperoleh persen konversi optimum sebesar 3,70 % dengan kondisi reaksi pada suhu 35°C , ratio glukosa : asam lemak 1 : 90, dan waktu reaksi selama 16 jam dan 40% massa enzim terimobilisasi.

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Esterification reaction between glucose and fatty acid could produce glucose-fatty acid esters. In this study, fatty acid was synthesized from hydrolysis reaction of palm oil. Esterification reaction was carried out enzymatically using immobilized Candida rugosa lipase EC.3.1.1.3 on Fe3O4-chitosan nanoparticles. Fe3O4-chitosan nanoparticles was synthesized using co-precipitation method and was characterized using FTIR (Fourier Transform Infra Red), XRD (X-Ray Diffraction), and EDS (Energy Dispersive X-Ray Spectroscopy). Candida rugosa lipase was immobilized on Fe3O4-chitosan nanoparticles using cross-linking method with glutaraldehyde as cross linker. Loading percentage of immobilized lipase was 62,20%. Hydrolysis activity of immobilized lipase was 6,81 U/mL, the specific activity was 2,65 U/mg and the immobilization efficiency was 34,54%. From this optimization study of esterification, the highest fatty acid conversion percentage was obtained using 1 : 90 ratio of glucose : fatty acid, 16 hours reaction time, immobilized lipase 40% of substrate’s mass, and at temperature 35°C. The highest fatty acid conversion percentage was 3,70%."

"Virus Influenza merupakan virus patogen yang menular dan pendemik terhadap manusia. Deteksi NA sebagai salah satu enzim dalam virus influenza menggunakan reaksi inhibisi oleh Zanamivir, dilakukan secara elektrokimia dengan teknik voltametri siklik menggunakan elektroda Pt-BDD dan PtNPs-BDD sebagai elektroda kerja. Deteksi NA dilakukan dengan mengamati perubahan respon elektrokimia zanamivir dalam buffer fosfat saat terdapat NA atau tidak. Deteksi NA dikembangkan dengan sistem magnetic beads dan strip test. Kurva kalibrasi linier pengukuran zanamivir berdasarkan puncak arus oksidasi diperoleh pada rentang kosentrasi 1,5x10-6 M – 1,5x10-3 M pada elektroda Pt-BDD dan rentang konsentrasi 1,5x10-7 M – 1,5x10-4 M pada elektroda PtNPs-BDD. Limit deteksi Zanamivir pada Pt-BDD sebesar 2,997 x 10-7 M untuk dan 5, 64 x 10-8 M pada elektroda PtNPs-BDD. Pt-BDD dan PtNPs-BDD kemudian digunakan pada aplikasi sebagai sensor Zanamivir, konsentrasi Zanamivir 2x10-5 M dapat dengan tepat menginhibisi 20 mU Neuraminidase dengan batas deteksi 4,6667 mU untuk Pt-BDD dan 2,833 mU untuk PtNPs-BDD. Kondisi optimum pengukuran adalah pada pH 6,8 dengan waktu inkubasi 25 menit. Selektivitas sensor diuji dengan penambahan 0,01 mg/mL Interferensi yaitu mucin, glukosa, dan α-amilase, terjadi penurunan respon arus oksidasi namun tidak signifikan, mengindikasikan sensor yang dikembangkan cukup menjanjikan.

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Influenza viruses are pathogenic viruses and pandemic infectious to human body. In this work, detection method of Neuraminidase as influenza virus enzyme was developed by electrochemical method with cyclic voltametry method using Pt-BDD and PtNPs-BDD as working electrode. The detection method was developed based on the difference of electrochemical responses of zanamivir in the presence and the absence of NA in phosphate buffer solution. Detection of NA developed on magnetic beads and strip test. Linier calibration curve of zanamivir concentration based on oxidation peak current obtained in the range 1,5x10-6 M - 1,5x10-3 M on Pt-BDD electrode and 1,5x10-7 M - 1,5x10-4 M on PtNPs-BDD electrode. Limit detection (LOD) of Zanamivir on Pt-BDD electrode 2,997 x 10-7 M and 5, 64 x 10-8 M on PtNPs-BDD electrode. Application of Pt-BDD and PtNPs-BDD as sensor for Neuraminidase showed that the maximum concentration of Neuraminidase can be inhibited by 1,5x10-5M zanamivir was 20 mU. LOD was 4,6667 mU for Pt-BDD and 2,833 mU for PtNPs-BDD. The optimum pH for the inhibition was 6.8 with incubation time of 25 minutes. Selectivity of the sensor was examined with the presence of mucin, glucose and α-amilase with a concentration of 0,01 mg/mL, decrease in the oxidation current response but not significant, suggesting that the sensors is promising to be applied."