ปัจจุบันอนุภาคเงินขนาดนาโนได้รับได้

Nano-size silver particles present received attention in the research a lot because such particles have several interesting properties. Can lead to a variety of applications in the medical field can be used for disinfection, and production tools for surgery. Silver nano-particles used as industrial compound catalyst In addition, the nano-sized silver particles can also be used in the electronics industry and in agriculture, and today produce aromatic body powder that is produced for trade such as detergents, plasters. The cosmetics The food industry and other materials [1] The antibacterial properties of silver particles by the social dimensions of the Nano bacteria which can kill the crystals of silver Nano-size particle surface area, there is a chance of exposure to microorganisms. For this reason, the result is effective in killing microbes increased. Nano-sized silver particles react with proteins. In General, microbes are composed of proteins, primarily. So when [2] af macro world of nano-sized silver touch with microorganisms is to accumulate at the cell wall and inserted in to the villages-SH (Sulfphydryl), which is a component of the enzyme activity. This process affects the system methanol and metabolism the Bora cause inhibition of cell growth. Lead to the destruction caused by the respiratory system The electron transport system in the process of methanol metabolism and transport systems Bo liner straight in membrane [3]. In addition, the nano-sized iron particles can also be used to inhibit microbial growth and the increase in the number that is causing the infection, odor, itching and blisters. [4] However, the effect of nano-sized silver particles, plants also have been relatively limited. Therefore, this project is so interested in studying the effects of Nano-Silver particles per plant, and was also interested in studying the process of synthesis of derivatives in the mission reduced the toxicity of nano chemicals too.การสังเคราะห์อนุภาคเงินขนาดนาโนสามารถทำได้หลายวิธี เช่น การรีดิวซ์ทางเคมี (chemical reduction) การปล่อยประจุสปาร์ก (spark discharge) และการฉายรังสีสารละลาย (solution irradiation) และอื่นๆ อย่างไรก็ตามวิธีการที่นิยมใช้หลักๆ มีสองวิธีคือ การสังเคราะห์ด้วยวิธีทางเคมี[1] และการสังเคราะห์ด้วยวิธีการฉายรังสี[2, 5, 6] หลักการโดยทั่วไปของการสังเคราะห์อนุภาคโลหะนาโนคือ การลดเลขออกซิเดชันของโลหะลงให้เป็นอะตอมของโลหะที่เป็นกลาง (zerovalent) แล้วอะตอมของโลหะจะเกิดการจับตัวกลายเป็นอนุภาคขนาดนาโน โดยที่มีสารคงความเสถียรเพื่อรักษาขนาดของอนุภาคนาโน โดยปกติจะเป็นสารประเภทพอลิเมอร์ เพราะพอลิเมอร์จะป้องกันการจับตัวกันของอนุภาคขนาดโนนา แต่ด้วยเหตุที่สารรีดิวซ์ทางเคมีโดยส่วนใหญ่มีความเป็นพิษสูง จึงไม่นิยมใช้ในการเตรียมอนุภาคนาโนที่ใช้ในทางชีววิทยา แต่การใช้การสังเคราะห์ด้วยวิธีการฉายรังสีไม่จำเป็นต้องใช้สารเคมีที่เป็นพิษนี้ จึงสามารถนำมาประยุกต์ใช้ในการเตรียมอนุภาคนาโนที่ใช้ทางชีววิทยาได้ นอกจากนี้การเตรียมอนุภาคนาโนเงินโดยการฉายรังสียังเป็นวิธีที่ง่ายสะดวก และสามารถควบคุมขนาดของอนุภาคโลหะนาโนได้[2] สารละลายที่ใช้สำหรับการสังเคราะห์อนุภาคเงินนาโนประกอบด้วยสารประกอบของเงิน polyvinyl alcohol (PVA) เพื่อป้องกันการจับตัวของอนุภาคนาโน isopropanol เพื่อจับกับสารออกซิไดซ์ การเตรียมอนุภาคเงินขนาดนาโนด้วยวิธีการฉายรังสี คือการฉายรังสีสารละลายเพื่อทำให้เกิดอนุภาคขนาดนาโน การฉายรังสีสารละลายจะทำให้เกิดสารอนุมูลและสารประกอบ ตามสมการต่อไปนี้ [2, 5, 6]

Currently, nano silver particles have been interested in the study are numerous. Because such particles have several features of interest. Can be applied such as in medicine. Can be used for sterilization and production equipment for the surgery. Industrial use of nanoparticles as catalysts. It also can lead to nano-sized silver particles used in the electronics industry. In agriculture, too. And today Produce has been produced for commercial purposes such as washing sheets, wound dressings, cosmetics, food industry and others [1]             of the anti-infectious properties. Nano-sized silver particles to kill bacteria. The crystalline nano-sized silver particles have more surface area exposed to the bacteria has an opportunity as well. This resulted in the killing of bacteria increased. Nano-sized silver particles interact with the protein. In general, bacteria are a major component of protein. So when [2] The nano-sized silver particles exposed to microorganisms. To the collection and insertion into the cell wall. On the other hand, among -SH (Sulfphydryl) well, which is among the components of the enzyme. This process affects bone metabolism and cause methadone inhibits the growth of cells. Lead to the destruction of the respiratory system. System to transport electrons in the metallic ribbon metabolism and transport of substrates in the membrane [3] In addition, the particle size nanoparticles can also be used to inhibit the proliferation and growth of microorganisms that cause. infection, odor, itching and ulceration as well [4] However, the effect of nano-sized silver particles on plants is also being studied quite limited. So this project is to study the effects nanoparticles on plants. Also interested to study the synthesis conservative Indian nano reduce the toxicity of chemicals with a synthetic particle silver nanoparticles can be done in many ways such as reducing agents chemically (chemical reduction) discharge Sparks (spark discharge. ) and irradiated solution (solution irradiation) and others how to use the other two methods is synthesized by chemical means [1] and synthesized by radiation [2, 5, 6] principles. in general, the synthesis of metal nano-particles is. Reducing the oxidation of the metal into a neutral atom of the metal (zerovalent) metal atoms are then captured into nanoparticles. The compounds are stable to maintain the size of the nanoparticles. This is usually the type of polymer. The polymer to prevent the capture of particles Winona. But because the chemical reducing agent by the most highly toxic. It is not commonly used in the preparation of nanoparticles used in biology. But the use of synthesis methods, irradiation does not require the use of chemicals that are toxic. It can be applied in the preparation of nanoparticles using biological. The silver nanoparticles by radiation is also a convenient way. And can control the size of the metal nano-particles [2] The solution used for the synthesis of nanoparticles comprising a compound of polyvinyl alcohol (PVA) to prevent the capture of isopropanol nanoparticles to bind with oxidizing substances. Preparation of nano-sized silver particles with radiation. The solution is irradiated to induce nanoparticles. Radiation causes the solution to radicals and compounds. According to the following equation [2, 5, 6].

The present Ag nanoparticles have been gaining attention in the study a lot. Because of such particles has several features of interest. Can be applied in many ways such as in medicine can be used for sterilizing and production of equipment for the operation. Industrial use silver particles nano as a catalyst. It also can bring Ag nanoparticles used in the electronics industry. And in agriculture. And nowadays, produced ภัฑณ์ was produced to trade such as detergents, cover the wound, cosmetics Food, industrial materials, and 1 [].Shh Shh Shh Shh properties on antibacterial. Ag nanoparticles can kill bacteria"s which crystals of Ag nanoparticles surface area, many opportunities contact with microorganisms are very well. For this reason, resulting in effective in disinfection increased. Ag nanoparticles react with proteins. In general, microorganisms have elements of the protein is the main. So when [] provided money 2 sector nanoparticles exposed to microorganisms. To accumulate at the cell wall and inserted inside, by going to catch the - SH (Sulfphydryl) well, which recently won a component of the enzyme. This process affects the system metabolism and cause inhibition of cell growth. Lead was destroyed the respiratory system. Electron transport system in the process of metabolism and the system moving substrate in tamponade 3 cells []. The nano iron particles can also be used to inhibit the growth of organic experiment and cause of infection,. Smell, itching, and ulcers. 4 []. "However the effect of Ag nanoparticles on plants have a very limited. Therefore, this project is interested in the effects of silver nanoparticles nano per plant. And also interested to study the synthesis of nano particle burden that reduces the toxicity of chemicals.Synthesis of silver nanoparticles can be done in several ways. For example, reducing development chemical (chemical reduction) Oh discharging sparks (spark. Discharge) and solution irradiation (solution irradiation).