高压电解法合成氧化镍纳米管

Jurnal Neutrino Pub Date : 2021-02-02 DOI:10.18860/NEU.V13I1.10224

Y. Pramana, B. Setiawan, Prihono Prihono, Yitno Utomo, M. Subandowo, K. Budipramana

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引用次数: 2

摘要

近年来，纳米颗粒氧化镍因其在生物传感器、催化剂、太阳能电池、超级电容器和电池等方面的潜在应用而得到了越来越多的发展。本文研究了在电解条件下添加CTAB合成氧化镍纳米颗粒。在电解过程中，镍板分别作为阳极和阴极。该工艺在60 V恒定电压下运行30分钟。XRD结果与氧化镍的衍射图一致。同时，来自氢氧化镍的杂质峰仍然出现。FTIR表征还表明了Ni-O的伸缩振动带。扫描电镜(SEM)表征氧化镍的形貌为纳米管结构，透射电镜(tem)表征氧化镍的纳米颗粒长度为250.44 ~ 325.60 nm。另一方面，利用热重分析仪表征了Ni(OH) 2向NiO的转变。

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A SIMPLE SYNTHESIS OF NICKEL OXIDE NANOTUBE USING HIGH VOLTAGE ELECTROLYSIS

Recently, the development of nanoparticle nickel oxide has increased due to their potential application such as biosensors, catalysts, solar cells, supercapacitors, and batteries. In this work, the addition of CTAB for nickel oxide nanoparticle synthesis using electrolysis was investigated. The nickel plates were used as anode and cathode in the electrolysis process. The process was operated at a constant voltage of 60 V for 30 minutes. The XRD result showed conformity with the Nickel oxide diffraction pattern. Meanwhile, the impurity from nickel hydroxide peaks still appeared. From FTIR characterization also indicates the band of Ni-O stretching vibration. The morphology characterization of nickel oxide using Scanning Electron Microscopy (SEM) showed the nanotube structure, while Transmission Electron Microscopy showed the nanoparticle size from 250.44 to 325.60 nm in length. On the other hand, the transformation of Ni(OH) 2 to NiO has been shown using TGA characterization.

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Jurnal Neutrino

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