Dangers of Molecular Nanotechnology (MNT) Prt 1

Posted by admin on Jul 17th, 2010 | 23 comments

If potential benefits of molecular nanotechnology (MNT) sound too good to be true, there is one caveat — the potential dangers of molecular nanotechnology. When nanofactories can arrange atoms into structures — playing with the building blocks of life itself, or in this case nanoblocks — theoretically anything allowable by the laws of physics can be created fast and cheap. Requirements include a few square feet for the nanofactory, the software, and an electrical outlet. Criminals, terrorists, disturbed individuals, governments, and antisocial groups of all stripes would be incredibly empowered by such technology. Additional potential dangers of molecular nanotechnology threaten the economy, environment, human rights, and world peace. The rush to gain supremacy through nanoweaponry could lead to a new arms race, while attempts to stranglehold the technology would likely result in independent, covert development. Unilateral, “open-source” international cooperation is another option that runs its own risks, and control in the public sector could lead to inequitable benefits and an Orwellian society. The probability factor of certain potential dangers of molecular nanotechnology will be higher than others, but all are possible within a scope of circumstances that, without prevention through forethought and planning, could feasibly come to pass. Some dangers cannot be discounted even with said planning, while others can reasonably be assumed to be goals of recognized …

Nanotechnology And Photovoltaics Trends & Market Potential

Posted by admin on Jul 2nd, 2010 | 0 comments

Nanotechnology And Photovoltaics Trends & Market Potential

Nanotechnology, shortened to “Nanotech”, is the study of the control of matter on an atomic and molecular scale. Generally nanotechnology deals with structures of the size 100 nanometers or smaller, and involves developing materials or devices within that size.

Nanotechnology is very diverse, ranging from novel extensions of conventional device physics, to completely new approaches based upon molecular self-assembly, to developing new materials with dimensions on the nanoscale, even to speculation on whether we can directly control matter on the atomic scale.

Although nanotechnology is a relatively recent development in scientific research, the development of its central concepts happened over a longer period of time.

Photovoltaic (PV) is the field of technology and research related to the application of solar cells for energy by converting sun energy (sunlight or sun ultra violet radiation) directly into electricity. Due to the growing demand for clean sources of energy, the manufacture of solar cells and photovoltaic arrays has expanded dramatically in recent years.

The coming together of these two technologies has become the talk of the town lately.

This report looks at how nanotechnology is changing the field of photovoltaic innovation.
From the basics of nanotech to the basics of photovoltaic, this report looks at how nanotech is making possible new developments in the solar PV industry.

Table Of Contents :

Executive Summary 5

What You Need to Know about Nanotechnology 6
Introduction 6
History of Nanotechnology 6
Basic Concept 10
What are Nanomaterials? 10
What is Molecular Self-Assembly? 11
Molecular Nanotechnology 11
Techniques Utilized in Nanotechnology 13
Applications of Nanotechnology 15
Medicine 15
Chemistry and the Environment 16
Energy 17
IT and

Nanomanufacturing

Posted by admin on Jun 7th, 2010 | 0 comments

Nanomanufacturing

Molecular nanotechnology (MNT) promises to usher in the next Industrial Revolution with a new, radically precise, less expensive, and more flexible way of making products. Like steam engines, electricity, and transistors, nanomanufacturing is poised to completely impact business and industry worldwide. Yet every aspect of nanoscale science and the commercial production of nanotechnology will depend on the capacity of these tools to measure, sense, manipulate, and fabricate matter at the molecula

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Fundamental Technique of Nanotechnology

Posted by admin on May 15th, 2010 | 0 comments

Fundamental Technique of Nanotechnology

Introduction to nanotechnology manipulates the atomic properties of nanotechnology materials. Nanotechnology is the broad classification of applied science and technologies evolving around. Nanotechnology comprises of physics, material science, and applied science different disciplines. The characteristic of nanotechnology will be different and it comes up with standard features and techniques. It is designed and produced specifically to meet wide applications. It is used to control, manipulate the molecular level of the scale and it ranges with regards to the fabrication devices.

Nanotechnology in medicine has been made with regards to nanotechnology research and nanotechnology reports. Generally, Nanotechnologies have been classified under multidisciplinary or interdisciplinary field of science and technology and more nanotechnology materials have been updated constantly. It is confined has mechanical and electrical engineering. The popular nanotechnology among the customer is molecular nanotechnology which is used to operate molecular scale. The main purpose of introduction to nanotechnology is that it produces desire structure or device using principles.

Nanotechnology uses more techniques and tools for its updating. Nanotechnology includes techniques for fabrication such as deep ultraviolet lithography, electron beam lithography, atomic layer deposition, and molecular vapor deposition. With regards to nanotechnology research and nanotechnology reports, it is come to know that it is possible to measure nanostructures and it is functionality. Nanotechnology can be used for wide applications and it has been designed specifically to meet the requirement of the customers around the world. Nanotechnology is an extension of existing sciences which interprets as nano scale or as recasting of existing science using new technology research.

Nanotechnology research has been made continuously to