PENGARUH VARIASI pH TERHADAP PENGUKURAN ASAM OKSALAT DENGAN ELEKTRODA GRAPHENOxide TERMODIFIKASI NANOBENTONIT SECARA SIKLIK VOLAMETRI不同pH值对用CY法测定草酸的影响

UNESA Journal of Chemistry Pub Date : 2020-11-29 DOI:10.26740/ujc.v9n3.p197-202

Pirim Setiarso, Eka Candra Saputra

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Spektrum FTIR Graphene oxide membuktikan bahwa Graphene oxide telah berhasil disintesis dengan memunculkan gugus –OH pada bilangan gelombang3445cm-1., tekukan C=C pada bilangan gelombang1622cm-1, regangan gugus C-O pada bilangan gelombang 1225cm-1 dan regangan gugus epoksi C-O-C pada bilangan gelombang 1042cm-1. Spektrum FTIR nanobentonit menunjukkan serapan kuat pada bilangan gelombang 1028cm-1 menunjukkan regangan gugus Si-O-Si, pada bilangan gelombang 793 cm-1 menunjukkan regangan gugus Al-O-Si. Sementara data PSA menunjukan bahwa distribusi partikel graphene oxide sebanyak 5% berukuran 0,61μm. Data PSA menunjukkan bahwa distribusi partikel nanobentonit sebanyak 5 % berukuran 1.09μm. Hasil penentuan elektroda komposisi terbaik yaitu pada perbandingan komposisi 3:5:2 dengan arus puncak anodik sebesar 3,29x10-3 A. 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引用次数: 0

摘要

研究了草酸测定的pH值影响，使用使用微氧循环法修饰纳米苯丁醇。氧化铁和纳米粒子都成功合成了植入悍马和微化学的方法。电极是用氧化铁石墨烯:纳米粒子:石墨烯与植物学相比:3:5;3:3:4;3:4:3;3:5:2。研究的pH变化是3.5;4;4.5;5;和5.5。这两种材料都有FTIR和PSA的特性。FTIR Graphene oxide谱证实了事实上，oxide Graphene已经成功地合成了一个簇——哦，在数组3445cm-1上。在波数1622cm-1中，teice C=C，波数1225cm-1中C- o星系团的固态C- o -C和波数1042cm-1中的环状C- o -C。FTIR纳米粒子谱显示对波数1028cm-1的强吸收，波形谱793 cm-1显示微- si星系团的张力。而PSA数据显示,石墨烯氮5%颗粒大小分布0,61μm。PSA的数据显示,nanobentonit粒子分布多达5 % 1。09μm大小的。根据3 - 9 - 10- A的水平电流，电极的最佳成分是3 - 2 - 2的比较。pH值4.5溶液中最优酸的测量方法，配以3.76x10 -3的峰值。关键字:循环测定，电极石墨烯对纳米苯丙胺的影响，氧乙酸氧和纳米粒子石墨烯已成功地与受植入的悍马和新化学方法合成。电是从氧化铁石墨中合成的3:3:4;3:4:3;3:5:2。pH值是3。5;4;4.5;5;和5.5。两种材料都是FTIR和PSA的特点。氟乙烯氧化铁证据表明，oxide中的Graphene已经在wave 3445cm-1中成功合成了一个哦集团。在1622cm-1波，在1225cm-1的C- o集团应变，在1042cm-1的环氧集团菌株。纳米本体FTIR频谱在1028cm-1微- si菌株编号1028cm1当PSA数据秀那美国美国《石墨烯distribution氮particles多测量0。5% 61μm。PSA distribution》节目数据那5% nanobentonite particles是1。09μm。最好的电子产品的结果是3. 2910 -3pH值为4.5的pH值为3.76x10- A。基岩:cyvlic voltammetry，纳米苯石墨烯修饰石墨烯，氧乙酸

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PENGARUH VARIASI pH TERHADAP PENGUKURAN ASAM OKSALAT DENGAN ELEKTRODA GRAPHENE OXIDE TERMODIFIKASI NANOBENTONIT SECARA SIKLIK VOLTAMETRI THE EFFECT OF VARIOUS pH VALUES ON MEASUREMENT OXALIC ACID USING NANOBENTONITE MODIFIED GRAPHENE OXIDE ELECTRODE BY CY

Telah dipelajari pengaruh pH pada pengukuran asam oksalat menggunakan elektroda Graphene oxide termodifikasi nanobentonit dengan metode siklik voltametri.Graphene oxide dan nanobentonitmasing-masing telah berhasil disintesis metode Improved Hummer dan Sonochemical. Elektroda dibuat dari campuran Graphene oxide:nanobentonit:parafin dengan perbandingan 3:2:5; 3:3:4; 3:4:3; 3:5:2. Variasi pH yang dipelajari yaitu 3,5; 4; 4,5; 5; dan 5,5. Kedua material tersebut di karakterisasi dengan FTIR dan PSA. Spektrum FTIR Graphene oxide membuktikan bahwa Graphene oxide telah berhasil disintesis dengan memunculkan gugus –OH pada bilangan gelombang3445cm-1., tekukan C=C pada bilangan gelombang1622cm-1, regangan gugus C-O pada bilangan gelombang 1225cm-1 dan regangan gugus epoksi C-O-C pada bilangan gelombang 1042cm-1. Spektrum FTIR nanobentonit menunjukkan serapan kuat pada bilangan gelombang 1028cm-1 menunjukkan regangan gugus Si-O-Si, pada bilangan gelombang 793 cm-1 menunjukkan regangan gugus Al-O-Si. Sementara data PSA menunjukan bahwa distribusi partikel graphene oxide sebanyak 5% berukuran 0,61μm. Data PSA menunjukkan bahwa distribusi partikel nanobentonit sebanyak 5 % berukuran 1.09μm. Hasil penentuan elektroda komposisi terbaik yaitu pada perbandingan komposisi 3:5:2 dengan arus puncak anodik sebesar 3,29x10-3 A. Pengukuran asam oksalat terbaik pada kondisi pH larutan 4,5 dengan arus puncak anodik sebesar 3,76x10-3 A.Kata kunci : voltametri siklik, elektroda Graphene oxide termodifikasi nanobentonit, asam oksalat The effect of pH on the measurement of oxalic acid using nanobentonite modified Graphene oxide electrodes with the cyclic voltammetry method. Graphene oxide and nanobentonite have been successfully synthesized by the Improved Hummer and Sonochemical methods. Electrodes are made from a mixture of Graphene oxide: nanobentonite: paraffin in a ratio of 3:2:5; 3:3:4; 3:4:3; 3:5:2. The pH variations studied were 3.5; 4; 4,5; 5; and 5.5. Both materials were characterized by FTIR and PSA. The FTIR spectrum of Graphene oxide proves that Graphene oxide has been successfully synthesized by raising the -OH group at wave number 3445cm-1. bend C=C at wave number 1622cm-1, the strain of C-O group at wave number 1225cm-1, and strain of epoxy group C-O-C at wave number 1042cm-1. The nanobentonite FTIR spectrum shows strong absorption at wave number 1028cm-1 indicating strain of the Si-O-Si group, at wave number 793 cm-1 indicating the strain of the Al-O-Si group. While the PSA data show that the distribution of graphene oxide particles as much as 5% measuring 0.61μm. PSA data show that the distribution of 5% nanobentonite particles is 1.09μm. The results of the determination of the best composition electrode are at a ratio of 3:5:2 with an anodic peak current of 3.29x10-3 A. The best measurement of oxalic acid at the pH of the solution 4.5 with an anodic peak current of 3.76x10-3 A.Key words: cyvlic voltammetry, nanobentonite modified Graphene oxide electrode, oxalic acid

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UNESA Journal of Chemistry

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24 weeks