10. Research ReferenceBio Baterai u

10. Research ReferenceBio batteries for first popularized by professor Kenji canoes from Kiyoto University he sets forth that the source of the energy biobaterai are carbohydrates, glucose, amino acids and enzymes, Urba. et al (1995:3). The principle of biobaterai basically just involves the transport of electrons between two electrodes separated by conductive medium (electrolyte) which gives the strength of electrical potential in the form of motion voltage and current. Kartawidjaja (Jauharah, Dian d. 2013). Electrolyte electrode, electron flows carried by ions and then undergo electrolysis. Electrolysis means chemical changes produced by passing an electric current through the electrolyte. The flow of electrons from the cathode through an electrolyte keanoda. The cathode is the negative electrode, such as copper plate, and the anode is the positive electrode, such as sheet zinc. This process will generate electricity in the same way as a battery of volta. Based on the description above, this proposal will describe the research potential of the extract extract kelor (Moringa Oleifera) as an environmentally friendly battery materials

10. Reference Research
Bio Battery for first popularized by Kenji canoe professor of Kiyoto University, he explained that the source of energy biobaterai are carbohydrates, glucose, amino acids and enzymes Urba ,. et al (2013: 3). Biobaterai principle basically just involves the transport of electrons between two electrodes separated by a conductive medium (electrolyte) which provides power electro motion in the form of potential electrical voltage and current. Kartawidjaja (in Jauharah, Dian W. 2013). In the electrolyte electrode, the electrons flow carried by ions and then undergo electrolysis. Electrolysis means the chemical changes produced by passing an electric current through an electrolyte. The flow of electrons from the cathode through the electrolyte keanoda.Katoda is a negative electrode, such as copper plate, and the anode is the positive electrode, such as zinc slab. This process will generate electricity in the same way as a battery of voltaic cells. Based on the description above, this proposal will describe the research potential of Moringa extract extract (Moringa oleifera) as an environmentally friendly battery materials