Nanofabrication: Principles and Applications


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Mechanical Behaviour of Engineering Materials

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Micro- and nanofabrication methods in nanotechnological medical and pharmaceutical devices

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How have I conquer staying video? Exploiting nature's self-assembly tricks is real science and it's happening in labs already.

As a matter of fact, it's actually about to lead to real world products. A recent example is IBM's announcement of self-assembling structures in their airgap processors. Self-assembly is also the reason why nanotechnologies have such a profound impact on the chemical industry.

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One example is the huge area of polymers used for industrial products think plastics. Chemists are using molecules' tendency to self-align to design molecular structures with specific properties.


  1. Nanofabrication: Principles, Techniques, and Devices!
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  3. ISBN 13: 9781498725576;
  4. Electrochemical Nanofabrication: Principles and Applications, Second Edition - CRC Press Book.
  5. Nanofabrication: Principles, Techniques, and Devices.
  6. Once you know how certain nanoparticles behave and what properties they possess you can use this knowledge to deliberately create structures with desired properties. This is a much more efficient way than the cement mixer chemistry of old where you mix compounds in a more or less arbitrary way based on best guesses and see what materials you get and then try figure out what you could do with them. The two major self-assembly techniques are colloidal self-assembly, which has exciting possibilities in terms of generating novel materials by combining nanoparticles with different properties into well-defined crystalline structures, and DNA, which is the archetypal self-assembling system.

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    DNA-based self-assembly offers flexibility in the types of structures that can be produced, based on single-stranded, double-stranded or duplex, and more complex supra-molecular assemblies. One-, two-, and three-dimensional structures can be made, and the ability of other nanoscale objects to be functionalized with DNA, combined with the specificity conferred by complementary sequence recognition, means that DNA can connect and organize disparate nanostructures to make relatively complex constructs, including well-controlled nanoparticle crystal lattices, and even active systems.

    Structural DNA nanotechnology , specifically the molecular self-assembly process known as DNA origami , has emerged as a versatile approach to fabricate nanodevices with complex nanoscale geometry, defined placement of molecular functionalities, and programed mechanical and dynamic properties. Scientists already are using DNA origami technology to design and build structures on the scale of viruses and cell organelles.

    In a first step, scientists form V-shaped building blocks using DNA-origami techniques. Determined by the opening angle a defined number of building blocks self-assemble into a gear-wheel. In a third step these gear-wheels form tubes with sizes of virus-capsids. DNA origami is a design technique — similar to the traditional Japanese art or technique of folding paper into decorative or representational forms — that is used by nanotechnology researchers to fold DNA strands into something resembling a programmable pegboard on which different nanocomponents can be attached.

    Guided or templated self-assembly typically makes use of boundaries created by top-down methods that interact with a system that has an intrinsic structural length scale. This latter can arise from the balance between long-range magnetic, electrostatic, or strain energy, or, as in the case of block copolymers, can come from local interactions built into the molecular structure of the material.

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    Recent Advances in Nanofabrication Techniques and Applications

    Self-assembled microstructures using laser printing capillary-assisted self-assembly. Image: Swinburne University of Technology. The technology to fabricate integrated circuits will continue to evolve in capability and cost, but will remain uneconomic for low value-per-unit-area, high-volume products. The family of lithographic technologies, such as nanoimprint, whose development has been driven in large part by the semiconductor industry, will be scaled to suit a variety of cost structures and so will find a wide range of applications, especially for those structures requiring only a single patterned layer.

    About this book This book provides an overview of the techniques and tools of nanostructure fabrication from state-of-the-art lithography to emerging self-assembly approaches. Show all. Table of contents 8 chapters Table of contents 8 chapters Introduction Pages Papadopoulos, Christo. Stamping Methods Pages Papadopoulos, Christo. Natural Lithography Pages Papadopoulos, Christo. Show next xx.

    Nanofabrication: Principles and Applications Nanofabrication: Principles and Applications
    Nanofabrication: Principles and Applications Nanofabrication: Principles and Applications
    Nanofabrication: Principles and Applications Nanofabrication: Principles and Applications
    Nanofabrication: Principles and Applications Nanofabrication: Principles and Applications
    Nanofabrication: Principles and Applications Nanofabrication: Principles and Applications

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