Composite of Coconut Charcoal-Based Carbon/MnO_2 as Metal-Air Battery Electrocatalyst

摘要

Many types of research related to battery currently being developed to answer the increasing need for energy. One of the most exciting topics is about a metal-air battery that has low oxygen reduction reaction (ORR) in the cathode side as main problem. This research used a composite between MnO_2 and carbon to increase the oxygen reduction reaction. MnO_2 was synthesized from KMnO_4 solution through electrochemistry method using multi-electrode at various temperatures. Carbon was synthesized from coconut charcoal through calcination and modified hummer method. Furthermore, The composite of MnO_2/carbon was carried out using physical treatment. Sample analysis consists of characterization and electrocatalytic analysis. The characterization itself consists of morphological analysis using Scanning Electron Microscopy (SEM), and particle surface area analysis using Brunauer Emmet Teller (BET). While the electrocatalyst consists of Cyclic Voltammetry (CV) analysis to determine the occurrence of oxygen reduction reaction (ORR), and Linear Sweep Voltammetry (LSV) to determine the amount of electron transfer. According to the X-Ray Diffraction pattern and specific surface area, a higher temperature of potassium permanganate electrolysis indicated the lower performance of MnO_2 produced. Also, after composited with carbon, the electrocatalytic analysis showed that both samples could initiate the oxygen reduction reaction with the number of electrons transferred are 1.52 for MnO_2 30°C-Graphene and 2.28 for MnO_2 60°C-Graphene which conclude that MnO_2-carbon composite is quite promising to be researched further as electrocatalyst in the metal-air battery.