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paper batter more flexible and efficient


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PAPER BATTERY Presented by Apurva Nandan 107459 E4


Flexible, ultra-thin energy storage and production device Formed by combining carbon nanotubes with a conventional sheet of cellulose-based paper A paper battery acts as both a high-energy battery and supercapacitor This combination allows the battery to provide both long-term, steady power production and bursts of energy INTRODUCTION


Can be folded, cut or otherwise shaped for different applications without any loss of efficiency Cutting one in half , halves its energy production Can be stacked in multiples of power output 2.5 volts of electricity from a sample the size of a postage stamp. INTRODUCTION


Combining cellulose with an infusion of aligned carbon nanotubes that are each approximately one millionth of a centimeter thick These tiny filaments act like the electrodes found in a traditional battery, conducting electricity when the paper comes into contact with an ionic liquid solution. With no water in solution, cannot freeze and hence operating temp -75 to 100 Degree celsius FORMATION


Carbon nanotubes ( CNTs ; also known as buckytubes ) are allotropes of carbon with a cylindrical nanostructure. They exhibit extraordinary strength and unique electrical properties, and are efficient thermal conductors. Nanotubes are members of the fullerene structural family, the diameter of a nanotube is on the order of a few nanometers Because of the symmetry and unique electronic structure of graphene, the structure of a nanotube strongly affects its electrical properties. For a given ( n , m ) nanotube, if n = m , the nanotube is metallic; if n − m is a multiple of 3, then the nanotube is semiconducting with a very small band gap, otherwise the nanotube is a moderate semiconductor. CARBON NANOTUBES


Growing the nanotubes on a silicon substrate and then impregnating the gaps in the matrix with cellulose Once the matrix has dried, the material can be peeled off of the substrate, exposing one end of the carbon nanotubes to act as an electrode When two sheets are combined, with the cellulose sides facing inwards, a supercapacitor is formed that can be activated by the addition of the ionic liquid This liquid acts as an electrolyte and may include salt-laden solutions like human blood, sweat or urine. MANUFACTURING


While a conventional battery contains a number of separate components, the paper battery integrates all of the battery components in a single structure, making it more energy efficient. INTEGRATED DEVICES – No warm up time, power loss, component malfunction; Loss of energy while transferring power from one component to another, less energy lost in an integrated device WORKING


WORKING 1.Batteries produce electrons through a chemical reaction between electrolyte and metal in the traditional battery. 2. Chemical reaction in the paper battery is between electrolyte and carbon nanotubes. 3. Electrons collect on the negative terminal of the battery and flow along a connected wire to the positive terminal 4. Electrons must flow from the negative to the positive terminal for the chemical reaction to continue.


The sheets can be rolled, twisted, folded, or cut into numerous shapes with no loss of integrity or efficiency, or stacked like printer paper to boost total output. The components are molecularly attached to each other: the carbon nanotube print is embedded in the paper, and the electrolyte is soaked into the paper DURABILITY


The paper-like quality of the battery combined with the structure of the nanotubes embedded within - light weight and low cost Ability to use electrolytes in blood make them potentially useful for medical devices such as pacemakers The medical uses are particularly attractive because they do not contain any toxic materials and can be biodegradable USES



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