My study
My research topic is structural analysis of single nano particles using Raman spectrometer and synthesis of conductive polymer and development of redox flow battery using it.
First, let's briefly introduce Raman spectroscopy. Raman spectroscopy is a technique used for structural analysis of substances and is mainly used in combination with optical microscope. The advantage of this method is that it can measure without destroying substances or changing the structure. It is also possible to measure more quickly and measure how it is changing while following material reactions. However, this method has drawbacks. It is a small amount, it is difficult to measure samples at low concentrations. The reason for this is that Raman light is a very weak light, so it is difficult to collect this light with a small sample. So I am researching the development and measurement techniques of such a device that makes this possible. It is a method to capture and measure one nanosize microparticle by the power of laser. This makes it possible to measure with a single particle.
Next, I am developing redox flow batteries that can be used in large facilities such as factories. This is a method of generating electricity by using redox reaction by conducting polymer. By using this, you can complete a stable and long-lasting battery. Since it generates electricity through redox reaction, it will be able to supply electricity to the factory without imposing a burden on the environment of the earth unlike thermal power generation etc. If you can successfully use this, you can delete the entire electricity costs, the profit will increase. We may also be able to solve environmental problems. In synthesizing this polymer, my research is to examine Raman spectroscopy as well as what kind of structure it can generate electricity efficiently. I'm not quite going well, but I would like to do research on this research.
First, let's briefly introduce Raman spectroscopy. Raman spectroscopy is a technique used for structural analysis of substances and is mainly used in combination with optical microscope. The advantage of this method is that it can measure without destroying substances or changing the structure. It is also possible to measure more quickly and measure how it is changing while following material reactions. However, this method has drawbacks. It is a small amount, it is difficult to measure samples at low concentrations. The reason for this is that Raman light is a very weak light, so it is difficult to collect this light with a small sample. So I am researching the development and measurement techniques of such a device that makes this possible. It is a method to capture and measure one nanosize microparticle by the power of laser. This makes it possible to measure with a single particle.
Next, I am developing redox flow batteries that can be used in large facilities such as factories. This is a method of generating electricity by using redox reaction by conducting polymer. By using this, you can complete a stable and long-lasting battery. Since it generates electricity through redox reaction, it will be able to supply electricity to the factory without imposing a burden on the environment of the earth unlike thermal power generation etc. If you can successfully use this, you can delete the entire electricity costs, the profit will increase. We may also be able to solve environmental problems. In synthesizing this polymer, my research is to examine Raman spectroscopy as well as what kind of structure it can generate electricity efficiently. I'm not quite going well, but I would like to do research on this research.