นักวิจัยในสวีเดนและสหรัฐอเมริกาได้เ

Researchers in Sweden and the United States have been exposed to how to create a battery with high capacity and flexibility from the wood by using nano-cellulose from wood fibers to break. The Board of the Research Institute of Technology KTH Royal University and Stanford University can generate material that acts as a battery that looks like foam and high flexibility. Which is resistant to shock and bent Max Hamedi. Researchers at Harvard University and KTH University said, "it is possible to create fantastic materials from plants and cellulose," one of the advantages of the new thermal gel wood rose as a base, it can be applied to a three-dimensional structure is Hamedi. It has been said that "there is a lot to do with the battery, but some of those restrictions have little applicability to the three-dimensional structure of materials. We do not limit ourselves to two dimensions, material, but we can create three-dimensional materials that meet more electronic equipment based on the use of space "," 3D structure feature enables more power catchment within a smaller area. When compared with the ability to power a typical catchment of the batteries, "Hamedi said here that" three dimensional structure materials with pore was thought it would be an obstacle to creating a power pole. But we have proven that this structure is not a problem at all, but the structure and the shape of this material will provide the flexibility and freedom to design more batteries separately, "the process of creating this piece of material, starting with the Elimination of the fibers of plants. Some of the fibers down to approximately one million times until it becomes Nano-cellulose. Nano-cellulose is dissolved with water and frozen, then the material is dried by placing a freeze drying, dry, frozen, which makes the moisture evaporates without passing through the liquid state. This technique will cause unstable molecules. Affect the shape of the material to be fixed. Not result in the dissolution of the post said, "the result Hamedi is a strong, lightweight materials, and the material is flexible within the pores while the scheme created from cellulose Nano looks quite robust, lightweight, and with more precision, you can touch it without.ห้มันแตก "the allowance rose gel that has the electrical properties that can be added. "We can use high precision technique for electrical properties on the atomic-level structure into with refills that bring electricity into the gel coating, ink, you can roll down the sides in all of the material in terms of surface area, this is a comparative material Hamedi with lungs of humans.Where once pod was released weekly. All tissue that can cover an entire football field. In the same way, the material the rose gel that is made in one lump sum to one cubic desimet x is able to cover a football field nearly the entire pitch "you can compress this material as much as you want. Now on the market that have electronic devices that can stretch elastic and is selling, but the material resistant to shock and vibration, it is a new story, "Hamedi. Battery l Rosa Santos said it can also apply to the personal auto electrical and textile. To create a secondary lining of clothes. This research was provided by the Faculty of Science Research Center at KTH from Wallenberg Wood by Lars Wagberg Professor and his team provide the basic material for Rochester gels is an electronic device that looks soft, elastic, this project also. Professor Yi Chi from University of Stanford Research by joining the research faculty, head of the section of the battery.

Researchers in Sweden and the United States has revealed how to build a battery with high capacity and flexibility through the use of nano-cellulose from wood pulp derived from wood fibers from breaking. Researchers from the University KTH Royal Institute of Technology and Stanford University to create a material that acts as a battery that looks like foam and flexible. The impact resistance and bending the Max Hamedi researchers at the University of KTH and Harvard University, said: "It is possible to create materials amazing trees and cellulose" One of the advantages of Aerosmith. New gel using wood as a base is that it can be used as a three-dimensional structure Hamedi said, "it is limited to a very few battery. But those restrictions are less relevant materials in three-dimensional structure. We do not limit ourselves to the two-dimensional material. But we can create three-dimensional materials that provide more electronic devices through the use of a smaller area, "" three-dimensional structure makes it possible to store more energy in a smaller space. Compared with the ability to store energy in batteries "Hamedi. Has said "Three-dimensional structure of porous materials was thought it would be an obstacle to the creation of electrodes. But we have proved that this structure is not an issue at all. But the structure and shape of the material is to provide flexibility and freedom to design more battery separately "has begun the process of building materials by cutting a strand of trees. By making some fiber to approximately one million times into nano-cellulose. Nano-cellulose is dissolved in water and frozen. Then the material is dried by freeze-drying technique which makes freeze drying the moisture evaporates without passing through the liquid state. This technique is not a stable molecule. Would affect the shape of the material it is. Does not deflate Hamedi said, "The end result is. Stronger materials Lightweight and flexible Inside is a porous material. While the scheme is built from nano-cellulose look quite solid. Lightweight and porous than ever. You can touch it without it breaking "massage gel that can increase the electrical properties into it. "We can use techniques with high precision. To install the electrical properties on the atomic scale structure. With the addition of electrically conductive ink in the Alps gel. You can ink coating on the inner surface of the material. In terms of surface area material Hamedi not compare this with the human lung. When the lungs are stretched out. All tissues that can cover the entire football field. In the same way the commuter gel material used to make one cubic decimeter one battery pack, it can almost cover the entire football field, "" you can compress this material as much as you want. We are in the market for flexible electronics and ductility, available now. The material is resistant to shock and vibration is also a new "Hamedi. Said Robert L. gel batteries can be applied to private electric cars and textiles. To create a secondary lining of clothing. This research was conducted by a team from the Wallenberg Wood Science Center at KTH by Professor Lars Wagberg and his team have prepared a massage gel, which is the base material for electronics with soft elastic addition, the project has professor. Yi Chi joined by researchers from Stanford University, is head of the research division of the battery.

Researchers in Sweden and the United States has revealed how to build a battery with a high capacity and flexibility of wood pulp by using nano cellulose from wood fiber fracture. The research team from the University of KTH Royal Institute of Technology and.University can create material serves as a battery that look like foam and flexibility. The resistance to the bumps and broken bent Max Hamedi researchers at the University of KTH and Harvard University has said.One of the advantages of the new material aerogel using wood is that it can be used as a base structure of three dimension has Hamedi said, "it has a limit to do some batteriesWe do not limit themselves to the material the two dimensions. But we can create three-dimensional materials that answer the more electronic equipment by using a smaller area of use. "Compared with the ability to store energy of the battery Hamedi has said that the general. " "Three-dimensional structure of porous materials was thought it would be an obstacle in the electrode.But the structure and shape of the material that will provide flexibility and freedom to design the battery more. "This piece of material process started by cutting the fiber of the tree.Nano cellulose is dissolved in water and then frozen. Then the material is dried by the techniques of frozen drying freeze drying which is the moisture evaporation out without passing through liquid state.As the shape of the material affecting it, was the collapse of Hamedi said. "The results is a material that strong, lightweight and flexible. The material inside the spongy.Lightweight and porosity than the original. You can touch it without making it definitively "aerogels which can improve the electrical properties in. "We can use a technique with high accuracy.By adding the ink conductivity into the aerogel. You can ink coating on the inner surface of all of the material in terms of the surface area Hamedi comparing this material with human lung, which when the lungs are spread out.In the same way the material aerogel used as battery size one cube decimeter one can almost be covered almost the entire football field. "" you can compress this material as much as you want.But the material resistant to shock and vibration, it is also a new Hamedi. " Said battery l ro gel can be applied to personal electric cars and textiles. To create a membrane of clothes.Wallenberg Wood Science Center that KTH by Professor Lars Wagberg and his team prepare aerogels which is the basic material for electronic device that looks soft. Flexible, the project is Yi Chi professor from the University.To join the research by head of research section of the battery.