Description: Bionanodesign by Maxim Ryadnov, Paul O'Brien, Harold Craighead, Harry Kroto This new publication brings together contemporary approaches for designing nanostructures that employ naturally derived self-assembling motifs as synthetic platforms. FORMAT Hardcover LANGUAGE English CONDITION Brand New Publisher Description The progress of todays science and technology encounters an increasing demand for finer and more efficiently performing materials with properties superior over those of current and hence ageing devices. Whether this is concerned with electronics or drug delivery, cancer diagnostics or alternative energy sources, the search for means of miniaturizing the existing materials or devising fundamentally new components with higher capacities appears to be relentless. A saving solution to this is widely proposed as the design and fabrication of nanostructures, molecular architectures with dimensions featured below 100 nm. Replicating Natures designs faithfully reproduced over millions of years provides perhaps the most straightforward route to success. Nature offers examples of nanodefined self-assemblies in virtually all levels of biological organization. However explicit guidance to the fabrication of functional or specialist nanostructures is of paramount importance.Nanotechnology is often referred to as building nanoscale structures from bottom up. However, while it is visually clear what is at "up" little is given and understood what is at the "bottom". This new book gives the notion of and provides rules for building nanostructures from basics - the very bottom. The main objective of this publication is to bring together contemporary approaches for designing nanostructures that employ naturally derived self-assembling motifs as synthetic platforms. The book has been written to satisfy the demands that motivate the search for and principles that prove to help the design of novel nanostructures. The overall goal is to compile the existing understanding of rules that govern biomolecular self-assembly into a practical guide to molecular nanotechnology. It is written in the shape of a review referenced as fully as permissible within the context of biomolecular design, which forms a general trend throughout. The volume is composed of three core chapters focusing on three prominent topics of applied nanotechnology where the role of nanodesign is predominant. The three key areas from which popular highlights can be drawn are:-employing the genetic repository, DNA, for creating various geometric nanoscale objects and patterns-the empirical pursuit of an artificial virus, a magic bullet in gene therapy-designing artificial extracellular matrices for regenerative medicineSpecific applications that arise from designed nanoscale assemblies as well as fabrication and characterization techniques are of secondary importance and whenever they appear serve as progress and innovation highlights. The book takes an unconventional approach in delivering material of this kind. It does not lead straight to applications or methods as most nanotechnology works tend to do, but instead it focuses on the initial and primary aspect of "nano" rather than on "technology". Nanodesign is unique in its own field - illustrations are essential and the cohort of brilliant bioinspired designs reported to date form a major part of the publication. In addition, key bibliographic references are covered as fully as possible. A special appendix giving a short list of leading world laboratories engaged in bioinspired nanodesign is also included. Back Cover Nanotechnology is often referred to as building nanoscale structures from bottom up. However, while it is visually clear what is at "up" little is given and understood what is at the "bottom". This new book gives the notion of and provides rules for building nanostructures from basics - the very bottom. The main objective of this publication is to bring together contemporary approaches for designing nanostructures that employ naturally derived self-assembling motifs as synthetic platforms. The book has been written to satisfy the demands that motivate the search for and principles that prove to help the design of novel nanostructures. The overall goal is to compile the existing understanding of rules that govern biomolecular self-assembly into a practical guide to molecular nanotechnology. It is written in the shape of a review referenced as fully as permissible within the context of biomolecular design, which forms a general trend throughout. The volume is composed of three core chapters focusing on three prominent topics of applied nanotechnology where the role of nanodesign is predominant. The three key areas from which popular highlights can be drawn are: -employing the genetic repository, DNA, for creating various geometric nanoscale objects and patterns -the empirical pursuit of an artificial virus, a magic bullet in gene therapy -designing artificial extracellular matrices for regenerative medicine Specific applications that arise from designed nanoscale assemblies as well as fabrication and characterization techniques are of secondary importance and whenever they appear serve as progress and innovation highlights. The book takes an unconventional approach in delivering material of this kind. It does not lead straight to applications or methods as most nanotechnology works tend to do, but instead it focuses on the initial and primary aspect of "nano" rather than on "technology". Nanodesign is unique in its own field - illustrations are essential and the cohort of brilliant bioinspired designs reported to date form a major part of the publication. In addition, key bibliographic references are covered as fully as possible. A special appendix giving a short list of leading world laboratories engaged in bioinspired nanodesign is also included. Flap Nanotechnology is often referred to as building nanoscale structures from bottom up. However, while it is visually clear what is at "up" little is given and understood what is at the "bottom". This new book gives the notion of and provides rules for building nanostructures from basics - the very bottom. The main objective of this publication is to bring together contemporary approaches for designing nanostructures that employ naturally derived self-assembling motifs as synthetic platforms. The book has been written to satisfy the demands that motivate the search for and principles that prove to help the design of novel nanostructures. The overall goal is to compile the existing understanding of rules that govern biomolecular self-assembly into a practical guide to molecular nanotechnology. It is written in the shape of a review referenced as fully as permissible within the context of biomolecular design, which forms a general trend throughout. The volume is composed of three core chapters focusing on three prominent topics of applied nanotechnology where the role of nanodesign is predominant. The three key areas from which popular highlights can be drawn are: -employing the genetic repository, DNA, for creating various geometric nanoscale objects and patterns -the empirical pursuit of an artificial virus, a magic bullet in gene therapy -designing artificial extracellular matrices for regenerative medicine Specific applications that arise from designed nanoscale assemblies as well as fabrication and characterization techniques are of secondary importance and whenever they appear serve as progress and innovation highlights. The book takes an unconventional approach in delivering material of this kind. It does not lead straight to applications or methods as most nanotechnology works tend to do, but instead it focuses on the initial and primary aspect of "nano" rather than on "technology". Nanodesign is unique in its own field - illustrations are essential and the cohort of brilliant bioinspired designs reported to date form a major part of the publication. In addition, key bibliographic references are covered as fully as possible. A special appendix giving a short list of leading world laboratories engaged in bioinspired nanodesign is also included. Author Biography Dr Maxim Ryadnov is at the University of Leicester. Following on from his PhD awarded by Moscow University, he joined Prof Woolfsons Protein Design Group at Sussex in 2001 to work on self-assembling protein systems. After his postdoctorate he was permanently placed at Sussex, and later at Bristol, where he started his independent research prior to moving to Leicester as a University Lecturer. His current scientific interests focus on adapting natural molecular recognition principles for devising novel design routes to functional nanostructures. Table of Contents 1 - Introductory notes;Inspiring hierarchical;Encoding instructive;Starting lowest;Picturing biological;2 - Re-cycling hereditary;Coding dual;Deoxyribonucleic;Building up in two;Keeping in shape;Priming topological;Re-sequencing basic;Choosing the fittest;Evolving diverse;Primary motifs;Gluing universal;Alienating axial;Fixing spatial;Hinting geometric: secondary motifs;Crossing double;Reporting visible;Translating symmetrical;Extending cohisive;Sharing mutual;Multiplying traversal;Tiling square;Scaffolding algorithmic;Pursuing autonomous;Lengthening to shorten;Gathering to limit;Assigning arbitrary;Synchronizing local;Prescribing general;Adding up to third;Wrapping to shut;Framing to classify;Outlook;References;3- Re-caging within;Enclosing to deliver;Transporting foreign;Fitting flat and straight;Spiralling along;Packing out and in;Spooling around;Tunnelling through;Escaping walled;Capturing on and off;Storing exchangeable;Reacting nano;Clustering spherical;Contriving consistent;Scaling hosting;Following linear;Channelling inner;Converting outer;Repairing from inside;Uninviting levy;Necessitating exterior;Antagonising dressing;Buffering masking;Renting occasional;Phasing wet;Facing concentric;Encircling between;Singling out unique;Sharing the balance;Driving symmetrical;Sealing annular;Outlook;References;4 - Re-assembling multiple;Keeping all in touch;Unravelling the essential;Winding three in one;Aligning stagger;Tapering polar;Branching and stretching;Replicating apparent;Scrapping refusal;Tempting compatible;Likening synthetic;Recovering intelligent;Restoring available;Prompting longitudinal;Invoking granted;Reposing modular;Displacing coil;Settling lateral;Bundling exclusive;Permitting distinctive;Inviting captive;Clearing limiting;Equilibrating transitional;Extracting minimal;Gambling beyond;Guiding proliferative;Feeding proximate;Rooting renewal;Accepting inescapable;Patterning positional;Relating interfacial;Grafting integral;Outlook;References;5 - Concluding remarks;Learning fluent;Parsing semantic;Drawing pragmatic;6 - Revealing contributory Review "Ryadnovs review of bioinspired nanomaterials is a timely contribution to this fast-paced field." -- JACS, 132, 1443-1444 Journal of the American Chemical Society (JACS) - NO LONGER ACCEPTING REVIEWS Review Quote "Ryadnovs review of bioinspired nanomaterials is a timely contribution to this fast-paced field." Description for Reader The progress of todays science and technology encounters an increasing demand for finer and more efficiently performing materials with properties superior over those of current and hence ageing devices. Whether this is concerned with electronics or drug delivery, cancer diagnostics or alternative energy sources, the search for means of miniaturizing the existing materials or devising fundamentally new components with higher capacities appears to be relentless. A saving solution to this is widely proposed as the design and fabrication of nanostructures, molecular architectures with dimensions featured below 100 nm. Replicating Natures designs faithfully reproduced over millions of years provides perhaps the most straightforward route to success. Nature offers examples of nanodefined self-assemblies in virtually all levels of biological organization. However explicit guidance to the fabrication of functional or specialist nanostructures is of paramount importance.Nanotechnology is often referred to as building nanoscale structures from bottom up. However, while it is visually clear what is at "up" little is given and understood what is at the "bottom". This new book gives the notion of and provides rules for building nanostructures from basics - the very bottom. The main objective of this publication is to bring together contemporary approaches for designing nanostructures that employ naturally derived self-assembling motifs as synthetic platforms. The book has been written to satisfy the demands that motivate the search for and principles that prove to help the design of novel nanostructures. The overall goal is to compile the existing understanding of rules that govern biomolecular self-assembly into a practical guide to molecular nanotechnology. It is written in the shape of a review referenced as fully as permissible within the context of biomolecular design, which forms a general trend throughout. The volume is composed of three core chapters focusing on three prominent topics of applied nanotechnology where the role of nanodesign is predominant. The three key areas from which popular highlights can be drawn are:-employing the genetic repository, DNA, for creating various geometric nanoscale objects and patterns-the empirical pursuit of an artificial virus, a magic bullet in gene therapy-designing artificial extracellular matrices for regenerative medicineSpecific applications that arise from designed nanoscale assemblies as well as fabrication and characterization techniques are of secondary importance and whenever they appear serve as progress and innovation highlights. The book takes an unconventional approach in delivering material of this kind. It does not lead straight to applications or methods as most nanotechnology works tend to do, but instead it focuses on the initial and primary aspect of "nano" rather than on "technology". Nanodesign is unique in its own field - illustrations are essential and the cohort of brilliant bioinspired designs reported to date form a major part of the publication. In addition, key bibliographic references are covered as fully as possible. A special appendix giving a short list of leading world laboratories engaged in bioinspired nanodesign is also included. Description for Bookstore Bionanodesigns are improving our understanding of biomolecular folding and structure. This practical guide to molecular nanotechnology describes the concept of, and provides rules for, building nanostructures from basics. It is, in essence, a fully referenced review, placed in the context of de novo biomolecular design. The book details current approaches to designing novel nanoarchitectures that rely on the structural principles of natural self-assembly patterns. Specific applications are used as examples to highlight particular areas of progress in the field. These include an artificial virus for gene therapy and artificial extracellular matrices for regenerative medicine. Illustrations and references provide an essential support to the text and a special appendix lists "whos who in nanodesign". Details ISBN0854041621 Author Harry Kroto Short Title BIONANODESIGN Publisher Royal Society of Chemistry Language English ISBN-10 0854041621 ISBN-13 9780854041626 Media Book Format Hardcover DEWEY 660.6 Year 2009 Imprint Royal Society of Chemistry Place of Publication Cambridge Country of Publication United Kingdom Subtitle Following Natures Touch Replaced by 9781782628163 UK Release Date 2009-06-02 AU Release Date 2009-06-02 NZ Release Date 2009-06-02 Pages 250 Series Nanoscience & Nanotechnology Series Publication Date 2009-06-02 Alternative 9781847559692 Series Number Volume 7 Illustrations No Audience Tertiary & Higher Education We've got this At The Nile, if you're looking for it, we've got it. With fast shipping, low prices, friendly service and well over a million items - you're bound to find what you want, at a price you'll love! TheNile_Item_ID:23311052;
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ISBN-13: 9780854041626
Book Title: Bionanodesign
Number of Pages: 250 Pages
Publication Name: Bionanodesign: Following Nature's Touch
Language: English
Publisher: Royal Society of Chemistry
Item Height: 234 mm
Subject: Chemistry
Publication Year: 2009
Type: Textbook
Item Weight: 518 g
Subject Area: Bioengineering, Nanotechnology
Author: Maxim Ryadnov
Item Width: 156 mm
Format: Hardcover