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Cubes, triangular prisms, nano-acorn, nano-centipedes, nanoshells, nano-whiskers. . . .  Now that we can create nanoparticles in a wide variety of shapes and morphologies, comes the next challenge: finding ways to organize this collection of particles into larger and more complex systems.  Nanoparticle Assemblies and Superstructures, edited by pioneer of nanoparticle self-organization Nicholas A. Kotov, employs three critical questions to provide a framework of open-ended inquiry:

1. What are the methods of organization of nanocolloids in more complex structures?
2. What kind of structures do we need?
3. What are the new properties appearing in nanocolloid superstructures?

Pulling together a collection of contributors unmatched in both their expertise and enthusiasm, Kotov presents what he refers to as a snapshot of nanoassembly work in progress. The first section of this comprehensive volume provides background through an assessment of the current status of nanoparticle assembly development and the requirements for different applications of organized nanomaterials. The middle chapters explore the changes that occur in various properties of individual particles when they are brought together to form agglomerates and simple assemblies. In the final section, a number of top scientists describe various methods for organizing particles in complex nanostructured superstructures. These include techniques involving biological ligands and force fields, as well as methods based on self-organization.

This remarkably prescient text upholds Kotov’s belief that the research on organization of nanoparticles and other nanostructures, will most certainly uncover a wealth of “interesting discoveries and surprising phenomena.”

Nicholas A. Kotov has received several state, national, and international awards for his research on nanomaterials, including the Mendeleev Stipend, the Humboldt Fellowship, and the CAREER award.

BUY FROM AMAZON –> Nanoparticle Assemblies and Superstructures

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Nanotechnology is a vital new area of research and development addressing the control, modification and fabrication of materials, structures and devices with nanometre precision and the synthesis of such structures into systems of micro- and macroscopic dimensions. Future applications of nanoscale science and technology include motors smaller than the diameter of a human hair and single-celled organisms programmed to fabricate materials with nanometer precision.

Miniaturisation has revolutionised the semiconductor industry by making possible inexpensive integrated electronic circuits comprised of devices and wires with sub-micrometer dimensions. These integrated circuits are now ubiquitous, controlling everything from cars to toasters. The next level of miniaturisation, beyond sub-micrometer dimensions into nanoscale dimensions (invisible to the unaided human eye) is a booming area of research and development. This is a very hot area of research with large amounts of venture capital and government funding being invested worldwide, as such Nanoscale Science and Technology has a broad appeal based upon an interdisciplinary approach, covering aspects of physics, chemistry, biology, materials science and electronic engineering. Kelsall et al present a coherent approach to nanoscale sciences, which will be invaluable to graduate level students and researchers and practising engineers and product designers.

BUY FROM AMAZON –> Nanoscale Science and Technology

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This book is devoted to nanochemistry: a branch of the actively developing interdisciplinary field of nanoscience. This branch of science studies the processes to production and reactions of nanoparticles and their compounds. It has been shown that such particles are of high activity and can undergo new and unusual chemical transformations. These transformations play an active role in our daily lives to provide reagents for self-cleaning glass surfaces and fabrics, different antiseptic coverings, sensors for monitoring the environment and catalysts preventing pollution. Nanochemistry covers the main studies of these reactions and reviews the work of leading scientists from different countries around the world. This book is the first monograph on nanochemistry, combining the elements of review and text book which allows for information on current and prospective directions in nanochemistry.

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Thomism’s influence upon the development of Catholicism is difficult to overestimate – but how secure is its grip on the challenges that face contemprary society? Culture and the Thomist Tradition examines the crisis of Thomism today as thrown into relief by Vatican II, the 21st ecumenical council of the Roman Catholic Church. Following the Church’s declarations on culture in the document Gaudium et spes – the Pastoral Constitution on the Church in the Modern World – it was widely presumed that a mandate hade been given for transpsoing ecclesiastical culture into the idioms of modernity. But, says Tracey Rowland, such an understanding is not only based on a facile reading of the Conciliar documents, but is flawed by Thomism’s own failure to demonstrate a workable theology of culture that might guide the Church through such transpositions.Thomism, which fails to specify the precise role of culture in moral formation, is problematic in a multicultural age where Christians are exposed to a complex matrix of instiutions and traditions both theistic and secular. If Thomism perceives cultural diversity as a space in which ethical doubt potentially thrives, its wider ambivalence to modernity also impedes its development. Must a genuinely progressive Thomism learn with the Church to accommodate modernity? In opposition to such a stance, and in support of those who have resisted the trend in post-Conciliar liturgy to mimic the modernistic forms of mass culture, Culture and the Thomist Tradition musters a synthesis of the theological critiques of modernity to be found in the works of Alasdair MacIntyre, scholars of the international ‘Communio’ project and the Radical Orthodoxy circle. This synthesis, intended as a postmodern Augustinian Thomism, provides an account of the role of culture, memory and narrative tradition in the formation of intellectual and moral character. Re-evaluating the outcome of the Vatican II, and forming the basis of a much-needed Thomist theology of culture, the book argues that the anti-beauty orientation of mass culture acts as a barrier to the theological virtue of hope, and ultimately fosters despair and atheism.

BUY FROM AMAZON –> Nano Science and Technology

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The generation of novel redox systems under nano-space control is one of the most exciting fields in present organic, inorganic, and supramolecular chemistry. The authors have drawn together the newest information on the construction of such novel redox systems using nano-space control of complexation or molecular chain-induced spaces and metal- or self-assembled spaces through combining techniques in coordination, supramolecular, and bio-inspired chemistry. Such design on the nano level produces hybrid conjugated systems composed of transition and synthetic metals, metallohosts, redox-active self-assembled monolayers of helical peptides, DNA-directed metal arrays, photoactive antibody systems, chiral rotaxanes, and redox-active imprinted polymers. In the future, these systems will be the basis for novel selective electron-transfer reactions as well as new functional materials and catalysts.

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The very latest nanoscale packaging techniques needed to keep quantum-well lasers functioning

In this book the authors address the nanoscale packaging issue by providing you with state-of-the-art screening and packaging techniques not found in any other resource.

BUY FROM AMAZON –> Quantum-Well Laser Array Packaging

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A compendium of novel information on molecular-scale science and the application of nanocarbon, nanosilicon and biopolymer integrated nanosystems. During the 20th century, molecular-scale science and nanotechnology developed rapidly, leading to the construction of innovative materials – nanosystens from molecules (fullerenes), supramolecules (nanotubes, peapods, polymers, biopolymers (DNA, protein and their complexes) and semiconductor nanoparticles (nano-Si, SiOx, Si/SiGe dots, metal nanowires). This book presents exciting new developments of the early 21st century. Significant progress has been made in nanotechnology of building blocks for integrated nanosystems, single and assembled molecules, nanoparticles characterisation, and multifunctional applications of nanosystems. The realisation and the application of novel multifunctional nanosystems in electronics, optics, biomedicine (nano-bioelectronic devices based on DNA and proteins, silicon nanocrystal memory devices, monolithically integrated silicon photonics, nanocapsules, biosensor nanosystems) are described by well known experts. This multi-disciplinary, scientific display of cutting-edge research across the entire spectrum of nanoscience and nanotechnology of inorganic, and organic systems, as well as systems for electronics photonics, and spintronics demonstrates that researching nanocarbon, nanosilicon, biomolecular integrated nanosystems, and developing their new applications, is a complex and exiting topic that will continue to attract scientists and engineers for many years to come.

BUY FROM AMAZON –> Frontiers of Multifunctional Integrated Nanosystems: Proceedings of the NATO ARW on Frontiers of Molecular-scale Science and Technology of Nanocarbon, … Germany from 12 to 16 July 2003

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Using new instrumentation and experimental techniques that allow scientists to observe chemical reactions and molecular properties at the nanoscale, the authors of Surface and Nanomolecular Catalysis reveal new insights into the surface chemistry of catalysts and the reaction mechanisms that actually occur at a molecular level during catalysis. While each chapter contains the necessary background and explanations to stand alone, the diverse collection of chapters shows how developments from various fields each contributed to our current understanding of nanomolecular catalysis as a whole.

The book describes how the size and shape of materials at the nanoscale can change their chemical and physical properties and promote more efficient reactions with fewer by-products. First it highlights the preparation, characterization, and applications of heterogeneous and supported metal catalysts. Then it covers the engineering of catalytic processes, structure and reaction control, and texturological properties of catalytic systems. The authors explain how surface science can elucidate reaction mechanisms and discuss the growing role of high-throughput experimentation and combinatorial approaches in catalysis.

From fundamental concepts to future directions, Surface and Nanomolecular Catalysis offers a well-rounded compilation of noteworthy developments which will continue to expand and transform our understanding of catalysis, particularly in the context of clean energy and environmental applications such as fuel cells.

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In the last decade a tremendous progress has taken place in understanding the basis of magnetism, especially in reduced dimensions.

In the first part, the fundamentals of magnetism are conveyed for atoms and bulk-like solid-state systems providing a basis for the understanding of new phenomena which exclusively occur in low-dimensional systems as the giant magneto resistance. This wide field is discussed in the second part and illustrated by copious examples.

This textbook is particularly suitable for graduate students in physical and materials sciences. It includes numerous examples, exercises, and references.

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When a photon meets a nanostructure, many interesting phenomena occur. This book aims at developing the theories and the applications of photon interactions with nanostructures. The contributors were all participants in the well-known Japanese national research project, “Near-Field Nano-Optics”, which ran from 1997 to 2000. The book covers a wide range of disciplines in nano-optics, including the theoretical development of imaging-contrast mechanisms as a result of photon and nanomatter interactions, and discussions on different near-field nanoprobes. Applications of nano-optics to sensing, imaging, analysis, and the fabrication of nanostructures, such as molecules and quantum devices, are also discussed, with a collection of experimental examples.

BUY FROM AMAZON –> Nano-Optics