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Molecular spectra --- Molecular rotation --- Molécules --- Rotation moléculaire --- Molecular rotation. --- Molecular spectroscopy. --- Molécules --- Rotation moléculaire --- Chemical structure --- fysicochemie --- Spectre

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This book is a stop-gap contribution to the science and technology of carbon plasmas and carbon vapors. It strives to cover two strongly related fields: the molecular quantum theory of carbon plasmas and carbon nanostructures; and the molecular and atomic spectroscopy of such plasmas and vapors. These two fields of research are strongly intertwined and thus reinforce one another. Even though the use of carbon nanostructures is increasing by the day and their practical uses are emerging, there is no modern review on carbon plasmas, especially from molecular theoretical and spectroscopic viewpoi

Plasma (Ionized gases) --- Nanostructured materials. --- Vapors. --- Carbon. --- Quantum theory. --- Molecular spectroscopy. --- Atomic spectroscopy. --- Nanomaterials --- Nanometer materials --- Nanophase materials --- Nanostructure controlled materials --- Nanostructure materials --- Ultra-fine microstructure materials --- Microstructure --- Nanotechnology --- Gaseous discharge --- Gaseous plasma --- Magnetoplasma --- Ionized gases --- Spectroscopy, Atomic --- Spectrum analysis --- Spectroscopy, Molecular --- Molecular spectra --- Quantum dynamics --- Quantum mechanics --- Quantum physics --- Physics --- Mechanics --- Thermodynamics --- Group 14 elements --- Light elements --- Vapours --- Gases

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Nanotechnologie gilt als eine der Schlüsseltechnologien des 21. Jahrhunderts mit stark wachsender wirtschaftlicher Bedeutung. In Architektur und Bauwesen liegen ihre heute nutzbaren Potenziale besonders in der Beschichtung von Oberflächen, die diesen funktionale Eigenschaften wie erhöhte Bruchfestigkeit, Fähigkeit zur Selbstreinigung, Feuerresistenz etc. verleiht. Auf Nanomaterialien basierende Zusatzstoffe machen gängige Materialien leichter, durchlässiger oder verschleißfester. Nicht nur für Fassaden und Dächer sind Nanomaterialien von großem Interesse, sondern sie bereichern auch die Gestaltungsmöglichkeiten von Innen- und Außenräumen. Nano-Dämmmaterialien eröffnen ökologisch ausgerichteten Architekten neue Potenziale.Architekten, Innenarchitekten und Designer finden in diesem Buch eine auf ihre Belange zugeschnittene Einführung in den naturwissenschaftlichen Hintergrund, eine kritische Diskussion der Vorzüge und Grenzen dieser Technologie und vor allem eine umfassende, mit zahlreichen internationalen Projektbeispielen belegte Darstellung von 16 bau- und designrelevanten Eigenschaften und Funktionen von Nanomaterialien. Nobelpreisträger Harold Kroto trug ein Vorwort bei.Dipl.-Ing. Innenarchitektin BDIA Sylvia Leydecker ist praktizierende Innenarchitektin mit dem eigenen Büro "100% interior" in Köln. Sie vertritt den BDIA in der Architektenkammer NRW, ist Dozentin bei mehreren Architektenkammer-Akademien, Mitglied im Kompetenzzentrum Nanotechnologie CC-NanoChem und im Institute of Nantechnology IoN, Schottland. Zahlreiche Vorträge und Zeitschriftenpublikationen über das Thema Nanotechnologie in Architektur, Innenarchitektur und Design. Nanotechnology is widely regarded as one of the twenty-first century's key technologies, and its economic importance is sharply on the rise. In architecture and the construction industry it has potentials that are already usable today, especially the coating of surfaces to lend them functional characteristics such as increased tensile strength, self-cleaning capacity, fire resistance, and others. Additives based on nanomaterials make common materials lighter, more permeable, and more resistant to wear. Nanomaterials are not only extremely useful for roofs and facades; they also expand design possibilities for interior and exterior rooms and spaces. Nano-insulating materials open up new possibilities for ecologically oriented architects.In this book, with a foreword by nobel prize winner Harold Kroto, architects, interior designers and designers will find an introduction to the scientific background specifically tailored to their needs, a critical discussion of the advantages and limits of the technology, and above all a comprehensive presentation of sixteen characteristics and functions of nanomaterials that are specially relevant for building and design, illustrated by numerous international project examples.Dipl.-Ing. interior designer BDIA Sylvia Leydecker is a practicing interior designer with her own firm in Cologne, 100% Interior. She represents the BDIA (Bund Deutscher Innenarchitekten, or Union of German Interior Architects/Designers) on the Architektenkammer Nordrhein-Westfalen (Chamber of Architects of North Rhine-Westphalia), serves as an instructor for a number of Architektenkammer academies, and is a member of the Kompetenzzentrum Nanotechnologie CC-NanoChem (Competence Center for Chemical Nanotechnology, or CC-NanoChem) and the Institute of Nanotechnology, or IoN, in Scotland. Numerous lectures and journal publications on the subject of nanotechnology in architecture, interior design, and design.

Nanostructured materials. --- Architecture and technology. --- Design and technology. --- Technology and design --- Technology --- Technology and architecture --- Nanomaterials --- Nanometer materials --- Nanophase materials --- Nanostructure controlled materials --- Nanostructure materials --- Ultra-fine microstructure materials --- Microstructure --- Nanotechnology

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Thanks to advances in molecular science and microscopy, we can visualize matter on a nanoscale, and structures not visible to the naked eye can be visualized and characterized. The fact that technology allows us to transcend the limits of natural perception and see what was previously unseeable creates a new dimension of aesthetic experience and practice: molecular aesthetics. This book, drawing on an exhibit and symposium at ZKM | Center for Art and Media Karlsruhe, documents aesthetic developments in what Félix Guattari called the “molecular revolution.” Just as artists in the Bauhaus movement began to use such industrial materials as metal, Plexiglas, and alloys as raw materials, artists today have access to new realms of the molecular and nano. The industrial aesthetic of machinery and material has been transformed into an aesthetic of media and molecules. Molecular Aesthetics suggests ways in which art can draw inspiration from the molecular sciences—and ways in which science can use art to make experimental results more intelligible and comprehensible. The authors of the essays collected in the book discuss the creation of molecules of remarkable beauty and the functional properties that stem from a few geometrical principles of molecular design; address the history of molecular structure representation; examine the meaning of molecular aesthetics for scientists; and compare chemical structures to artworks.

77.01 --- 5/6 --- kunst --- 7.01 --- Guattari Félix --- nanotechnologie --- chemie --- scheikunde --- wetenschap --- kunst en wetenschap --- esthetica --- kunsttheorie --- 77.01 Fotografie--Semiotiek van de fotografie. Theorie --- Fotografie--Semiotiek van de fotografie. Theorie --- Exacte en toegepaste wetenschappen --- Art --- installations [visual works] --- painting [image-making] --- aesthetics --- sculpting --- anno 1900-1999 --- anno 2000-2099 --- 21e eeuw (eenentwintigste eeuw) --- wetenschap en kunst --- 700.6 --- beeldende kunst, filosofie, esthetiek en kritiek der beeldende kunst