NANOBOT
NANOBOTS
Nanobots are sometimes called Nanorobotics. They are the machines deployed at the molecular level or to the scale of a nanometer. They are immensely in the research & development sector. It is the fabrication & designing of robots with overall dimensions at or below the mm range & made of nm-scale components.
Adriano Cavalcanti was a nanorobot developer, especially for practical hardware architecture of nanorobots. He designed the robots for the applications in diabetes, cardiology & cancer.
MANUFACTURING OF NANOBOTS
Nanorobotics is the innovation of making machines or robots at or close to the microscopic scale of a nanometer (10−9meters). More particularly, nanorobotics refers to the still largely hypothetical nanotechnology engineering discipline of designing and building nanorobots, devices ranging in size from 0.1-10 micrometers and constructed of nanoscale or molecular components.As of 2010 nobody has yet built artificial non-biological nanorobots: they remain a hypothetical concept. The names nanobots, nanoids, nanites or nanomites have also been used to describe these hypothetical devices.
Grey Goo
Grey goo (alternatively spelled gray goo) is a hypothetical end-of-the-world scenario involving molecular nanotechnology in which out-of-control self-replicating robots consume all matter on Earth while building more of themselves, a scenario known as ecophagy ("eating the environment").
APPLICATIONS of NANOBOTS:
1. DNA Nanobots set to eliminate cancer cells in human beings:
These DNA Nanobots help leukemia patient by destroying cancer cells and saving the healthy cells.
One year ago, a newer version of DNA nanobots were injected into live cockroaches. The creation of these devices were using DNA strands that would self-assemble into a box with a controllable lid. Each box occupied a molecule that hold together hemolymph cells (like blood cells in human beings), and the nanobots themselves were labeled with fluorescent markers so Bachelet's could follow them.
2. Nanobots with Micrometers carries Medical Payload in Living Being for first time:
Researchers working at the University of California, San Diego have claimed a world first in proving that artificial, microscopic machines can travel inside a living creature and deliver their medicinal load without any detrimental effects. Using micro-motor powered nanobots propelled by gas bubbles made from a reaction with the contents of the stomach in which they were deposited, these miniature machines have been successfully deployed in the body of a live mouse.
According to the researchers, of all the nanobots deployed in the stomach of the mouse, those that reached the stomach walls remained attached to the lining for a full 12 hours after ingestion, thereby proving their effectiveness and robust nature.
While nanobots have been used before on organic tissue – such as in the destruction of the Hepatitis C virus – and still others have been designed to be propelled using external forces within a living creature, the University of California micromachines are the very first self-propelled, nanoparticle delivering nanobots ever.
3. More applications of Nanobots include:
a. Breaking up of the blood clots & kidney stones
b. Removal of Parasites
NEW METHOD OF MONITORING
Nanobots in SPACE:
Nanobots play a vital role in the measurement of toxic elements in the environment.
MRN Robotics(Marssuit Repair Nanorobots): They are designed in order to repair the damaged Mars Suits by operating as space filling polygedra.
ADVANTAGES OF NANOBOTS:
1. High operating speed due to very small size of nanomachines.
2. Durablity is one of the essential asset.
3. Very less energy required by the individual tiny unit.
Nanobots are sometimes called Nanorobotics. They are the machines deployed at the molecular level or to the scale of a nanometer. They are immensely in the research & development sector. It is the fabrication & designing of robots with overall dimensions at or below the mm range & made of nm-scale components.
Adriano Cavalcanti was a nanorobot developer, especially for practical hardware architecture of nanorobots. He designed the robots for the applications in diabetes, cardiology & cancer.
MANUFACTURING OF NANOBOTS
Nanorobotics is the innovation of making machines or robots at or close to the microscopic scale of a nanometer (10−9meters). More particularly, nanorobotics refers to the still largely hypothetical nanotechnology engineering discipline of designing and building nanorobots, devices ranging in size from 0.1-10 micrometers and constructed of nanoscale or molecular components.As of 2010 nobody has yet built artificial non-biological nanorobots: they remain a hypothetical concept. The names nanobots, nanoids, nanites or nanomites have also been used to describe these hypothetical devices.
Grey Goo
Grey goo (alternatively spelled gray goo) is a hypothetical end-of-the-world scenario involving molecular nanotechnology in which out-of-control self-replicating robots consume all matter on Earth while building more of themselves, a scenario known as ecophagy ("eating the environment").
APPLICATIONS of NANOBOTS:
1. DNA Nanobots set to eliminate cancer cells in human beings:
These DNA Nanobots help leukemia patient by destroying cancer cells and saving the healthy cells.
One year ago, a newer version of DNA nanobots were injected into live cockroaches. The creation of these devices were using DNA strands that would self-assemble into a box with a controllable lid. Each box occupied a molecule that hold together hemolymph cells (like blood cells in human beings), and the nanobots themselves were labeled with fluorescent markers so Bachelet's could follow them.
2. Nanobots with Micrometers carries Medical Payload in Living Being for first time:
Researchers working at the University of California, San Diego have claimed a world first in proving that artificial, microscopic machines can travel inside a living creature and deliver their medicinal load without any detrimental effects. Using micro-motor powered nanobots propelled by gas bubbles made from a reaction with the contents of the stomach in which they were deposited, these miniature machines have been successfully deployed in the body of a live mouse.
According to the researchers, of all the nanobots deployed in the stomach of the mouse, those that reached the stomach walls remained attached to the lining for a full 12 hours after ingestion, thereby proving their effectiveness and robust nature.
While nanobots have been used before on organic tissue – such as in the destruction of the Hepatitis C virus – and still others have been designed to be propelled using external forces within a living creature, the University of California micromachines are the very first self-propelled, nanoparticle delivering nanobots ever.
3. More applications of Nanobots include:
a. Breaking up of the blood clots & kidney stones
b. Removal of Parasites
NEW METHOD OF MONITORING
Nanobots in SPACE:
Nanobots play a vital role in the measurement of toxic elements in the environment.
MRN Robotics(Marssuit Repair Nanorobots): They are designed in order to repair the damaged Mars Suits by operating as space filling polygedra.
ADVANTAGES OF NANOBOTS:
1. High operating speed due to very small size of nanomachines.
2. Durablity is one of the essential asset.
3. Very less energy required by the individual tiny unit.
ANIMAL CLONING
Animal Cloning is a process of raising the animals scientifically. Earlier, methods such as artificial insemination and embryo transfer have been used in the genetic manipulation of livestock. Advances in gene will enhance these traditional animal-breeding approaches to improve farm animals. By genetically engineering livestock, scientists trying to produce animals with altered traits such as disease resistance, wool growth, body growth and milk composition. Laboratories have produced transgenic pigs, sheep, goats and cattle, but now the efficiency of producing the animals remains low and the procedure is expensive. Within the next few decades, however, genetically engineered dairy cows could become available. Cloning may also be used to duplicate animals with traits that are difficult to capture through traditional breeding practices. By 2025, cloning and breeding of elite animals could be carried out by companies which selects and breeds top dairy stock. The acceptance of genetically engineered animals by industry will depend on its economic benefits and whether consumers are prepared to buy the resulting products.
Animal Cloning is a process of raising the animals scientifically. Earlier, methods such as artificial insemination and embryo transfer have been used in the genetic manipulation of livestock. Advances in gene will enhance these traditional animal-breeding approaches to improve farm animals. By genetically engineering livestock, scientists trying to produce animals with altered traits such as disease resistance, wool growth, body growth and milk composition. Laboratories have produced transgenic pigs, sheep, goats and cattle, but now the efficiency of producing the animals remains low and the procedure is expensive. Within the next few decades, however, genetically engineered dairy cows could become available. Cloning may also be used to duplicate animals with traits that are difficult to capture through traditional breeding practices. By 2025, cloning and breeding of elite animals could be carried out by companies which selects and breeds top dairy stock. The acceptance of genetically engineered animals by industry will depend on its economic benefits and whether consumers are prepared to buy the resulting products.