หากเราดูจากภาพที่ 3 ทรานซิสเตอร์นั้

If we see from the photo that contains 3 transistor gate that controls the flow of electrons from one point to another (the source to drain), the first problem that is encountered when the transistor is the size that will make the rest of 0.1 micron source and drain a nudge coming around more until its airport gate will control the flow of electrons is more difficult because the electrons will flow easier, until may itself without potential from the airport gate. The second issue is that there must be a normal transistor control the flow of electric current. By the size of this size is electric enough to no longer be obscured from interference. When the lower transistor size. Make the electric to the reduction as a result, the intensity of electric and more.Electrons emitted to much control over another issue, it's about electrons to cross the barrier wall and disappeared (Tunnelling), where electrons can get through from one side to the other side of its walls. Hop across the wall without having the thickness of walls, not if. , When there are more number of transistor in the areas decreased. Each transistor, it will come close. The likelihood that a single electron transistor in a to sift it to interfere with the operation of the other transistor, it will have more electrons may sift through the dielectric oxide plate that separates the electrons travel. (Channel) to the gate.From the electronic molecular electronics Silicon nasu -NanoelectronicsThe problems arising from the conceptual to the electronic revolution by changing the traditional way is to create an electronic circuit on a Semiconductor Solid State electronic circuitry to generate a molecular (Molecular Electronics) with a new electronic will need to work in a molecular one and each device will be a single electron. (Single Electron Devices) the revolution is expected to occur within 10 years, this new technology so that it occurs as a substitute before the electronics industry will reach an impasse. Actually, that would be such a goal, it is considered as a long-term vision., because no one knows whether the final molecular electronics will look? It is for this reason that the present is the leader offered guidelines.By aiming the importance of molecular electronics in the future. It has a number of researchers at the Department of physics, Faculty of science, Mahidol University and the establishment of a nanotechnology research groups and the Lake with the attitude that the holiday e-Quran said, "if we are to do our race with the old layout, electronic, not of course because more than 30 years. restart the layout, but if we make molecular electronics. Everyone began to practice the same walk. We also have the opportunity to do? " The group consists of semiconductor physics students A student who has a polymer synthesis capabilities of electronic materials. Computational scientists who can design and materials with computer models and theoretical expertise in the effects of quantum mechanics. Research based on this topic is a continuation of a long-term project for more than 10 years ago, which actually seems to be doing the research to life nor damage. Because the molecular electronic to correspond with the development of nanotechnology and nano technology, this is a matter that is expected to occupy most of the space in the research of the 21st century.Nano computers.In the future, in front of the device or equipment can be small. They get a different name, such as nano-robots (Nanorobot) machine geared konna (Nanomachine) molecule (Molecular Machine), they must have the control unit or processor, the brain of the machine with no idea what konna seems to have developed a PM.No computer to control the operation of devices or equipment, they are different from an ordinary computer, the computer manufacturer that we understand each other, such as a desktop computer at work by the human senses directly, such as with a receive.Is the keyboard. Is there a graphics display monitor but the computer has to retrieve the Nano into a sensor. There is a video signal, or working with machinery, konna UNO. This nano will have direct interaction with the device at work, rather than to humans. The development of molecular electronics will be beneficial to the development of the Nano-computers, as well as the benefits of developing a computer model as desktop computer.With the current knowledge, we look at the direction the development of the Nano-computer cable is 4. • Electronic NanocomputerNano electronic computer based work are similar to the current computer is running from the motion of the electron. Nano-computers, electronic components, but do not rely on the movement of huge amount of electrons that are present on the computer, but it will take one or more electrons, which works on the basis of the results of quantum mechanics (Quantum Effect), which is the computer's current age barriers, but as a mechanism for nano-electronics, computer, work. The electronic circuitry of the computer needs to have the Nano small emerging as new molecular that molecular electronics.Semi accessories impersonator also came from the leaders with common pole p-n. After that, there was a large number of researchers, has been trying to find a molecule that contains the property recently. It has a molecular discovery with those treasures is the power supplier this rekti (Molecular Rectifiers), several researchers have hope and encouragement that the creation of an electronic circuit with the molecules are not whimsical stuff anymore. Although the fire is discovered, rekti molecular suppliers but still not able to connect the power supplier to create rekti is an electronic circuit that worked perfectly. Job search for better power supplier rekti still continues. With the development of technology to control fire, rekti more stable supplier.Before molecular or base unit lights suppliers rekti, such as molecular transistor is sak.

If we see from Figure 3 transistor that includes a gate that controls the flow of electrons from one point to another point (source to drain), the first problem is to find the transistor size to 0.1 microns will make source and drain nudge. come closer together The potential fields of gates to control the flow of electrons is more difficult. Because the electron will spontaneously flow easier. It may not be dependent on the field from the gate voltage. The second problem is that Usually, the transistor has to be an electric field to control the flow of current. The size of the field, it must have enough size. Not to be overshadowed by the noise. When transistors are reduced in size much. Distance makes the electric field acts on the decline. As a result, the concentration of the electric field more. This may cause
the electrons to fall out so much uncontrollable, another problem is about the ability of the electrons in the disappearance crossing barriers (Tunnelling) by which the electrons are able to pass from one side to the other side. Walls have potential No need to jump over the wall if the wall thickness is not much, the number of transistors are increasingly in decline. Each transistor will come closer together. Chance of electrons in a transistor to pass interfere with other transistors, it will be more. Or electrons could pass through the insulating oxide between the electrons travel channel (channel) to the Gate
of electronic silicon to molecular electronics - Nanoelectronics
from problems such ideas. The need to revolutionize electronics by changing the traditional approach is to build electronic circuits on Solid State Semiconductor. To the creation of electronic circuits with molecules (Molecular Electronics) new electronics. It must be working at the molecular level ever, and each device is a single electron (Single Electron Devices) revolution that is expected to occur within 10 years, to have a new technology arises replacement before the electronics are. the airless Indeed, to go into such a goal is considered a long-term vision ever. Because no one knows what the final form of molecular electronics. Looks like? Thus, at present, therefore, the proposed approach
with the emphasis on the future of molecular electronics. It has been gathered by the researchers at the Department of Physics. Faculty of Science Mahidol University And establish a nanotechnology research and Molecular Electronics up with that attitude. "If we do it the old electronics. We do not compete with each other, because he started 30 years ago, but if we do that molecular electronics. Everyone from toddlers alike. We also have the opportunity to do something "by the group composed of semiconductor physics. The polymer capable of synthesizing electronic materials. Computational scientists who can design and materials with computer models. And an expert in the theory of quantum. Research on this topic is an ongoing long-term project over 10 years for it to be done throughout life, researchers at all. Due to the way that molecular electronics is directly in line with the development of nanotechnology. And nanotechnology, it is expected to occupy an area of research, most of the 21st century ever
nano-computers
in the future, or mechanical devices that are smaller. Those devices have been called in as nano-robots (Nanorobot) Mechanical nano (Nanomachine) molecular machines (Molecular Machine), those devices must have control. Or processor is the brain of the machine nano. The idea seems to have developed a nano-based computer to control the device. Mechanical or those Unlike conventional computers, nano-computers that we understand each other. Such as desktop computers The works by interacting directly with the human senses. For example, the input is the keyboard. There is a monitor display But nano computer to send data to the sensor. The output signal or working with mechanical nano. The nano-computers to interact directly with devices running over the man. The development of molecular electronics will benefit the development of nano-computers. Also included are useful for developing computer models for example. A desktop computer with
the knowledge we look at the current direction of development of nano-computers into four lines
• Electronic Nanocomputer
nano-electronic computer based functionality similar to the current computer is working by the movement of electrons. However, nano-electronic computer is not relying on the movement of electrons as it is in the vast number of current computers. But it will take one or more electrons, which are driven by the benefits from the results of Quantum (Quantum Effect), a prefix of the computer era, but the mechanism for nano-electronics, computer work. Nano-electronic circuits of a computer, it must be small molecular a new word that comes up. Molecular electronics
is a parody of a polar semiconductor pn general Thereafter, there has been a lot of research, trying to find molecules that have such features. And recently I have discovered a molecule that possesses a Rectifier This (Molecular Rectifiers) making researchers hopeful and encouraged that more and more. Creating electronic circuits with molecules will not fantasize anymore. Despite these findings, rectifiers Molecular ago. However, it has not been able to Rectifier's the time to create an electronic circuit that works perfectly. Search Rectifier's better, it's still ongoing. With the development of technology to control the Rectifier has more stability
before Rectifier Molecular or other basic units such as molecular transistors are sacred.

If we look from the image 3 transistor comprises the gate that controls the flow of electrons from one point to another point (source to drain). The first problem to be found when the transistor is left 0.1 micron. That will make source drain and move on. The potential fields of gates to control the flow of electrons is more difficult. Because the electrons will flow out easier. Until may not rely on the potential fields from the gate. The second issue is thatBy the size of the electric field must have enough size Not to be obscured by noise. Since the transistor size decreased. The electric field with the distance decreases. The concentration of the electric field, which may make more
.The electrons off to that of control.Another problem is about the ability of the electrons to disappear over the wall (Tunnelling), where electrons can time from one side to the other side of the wall potential.,,When the number of transistors are more in the area decreased. Each transistor is close to more and more. The electrons in the transistor one will always disturb the work of the other transistor will be more and more.(channel) with gates have
.From electronic to molecular nano silicon electronics electronics
.The above problems the concept. To be a revolutionary electronic by changing the traditional methods is to create an electronic circuit on the Solid State Semiconductor. To build electronic circuits with molecules (Molecular Electronics).Will have to work at the molecular level it quite well, and each device to a single electron (Single Electron Devices) this revolution is expected to occur within 10.Actually, to go into such targets is considered as a long-term vision. Because no one knows that a molecular electronic last, there are the face, however.The value significance of molecular electronics in the future. The merger of the researchers at the Department of physics, Faculty of science."If we make the old electronics We can't compete with him because he started to 30 over the years. But if we do the molecular electronics. Everyone began to walk the same. We still have a chance to do something ".A polymer in synthesis of electronic material, talented people. Computational scientists to design and model materials by computer. Theorists specializing on the effects of quantum.10 years, which actually should be done forever researchers itself. Because the work electronically to comply with the development of molecular nanotechnology directly.21 ever
.Nano computer
.In the future the equipment or mechanical parts are small. Those devices has been dubbed, such as nano robot (Nanorobot) mechanical nano (Nanomachine) (Molecular molecular machinery. Machine) devices must have control.The idea that there should be a development of nano computer to control the work of device or mechanical them. This computer is different from the ordinary computer, nano, as we understand, such as the computer table.As part of a keyboard input A display is the monitor. But the computer will be in nano input sensors. Rendering into signs or working with mechanical nanoThe development of molecular electronics will benefit the development of nano computer. Also included are beneficial to the development of the computer such as a desktop computer with original
.With the knowledge, at present, we look into the development direction of computer 4 nano wire is Electronic Nanocomputer
-
.Nano Electronics is basic work similar to the modern computer is working from movement of electrons.But using one or more electrons,Which will work by using the advantage of the effects of quantum (Quantum Effect) which obstacles of computer nowadays, but it is mechanism to nano electronic computer work.Molecular electronics
.It imitated the semiconductor with polarity p-n general. Since then have researchers a lot,Try to search for molecules with such properties and recently. It has the properties of molecules with a rake fire this supplier (Molecular Rectifiers) the researchers shall have hope and courage more.Although the discovery of fire rake supplier molecules by then. But still no one can to rake the fire to create a supplier such electronic circuit work perfectly.Together with the development of technology in the control of fire rake supplier with more stable
.Before the fire rake supplier molecules or basic units such as a transistor molecule will be holy.