Описание: In the last ten years, the chemistry and physics of materials with layered structures became an intensively investigated field in the study of the solid state. This second volume in the series `Physics and Chemistry of Materials with Layered Structures` has been written by specialists of different classes of layered materials.
Автор: T.J. Wieting; M. Schl?ter Название: Electrons and Phonons in Layered Crystal Structures ISBN: 9400993722 ISBN-13(EAN): 9789400993723 Издательство: Springer Рейтинг: Цена: 14365.00 р. Наличие на складе: Есть у поставщика Поставка под заказ.
Описание: An individual layer of a layered crystal may be composed of either a single sheet of atoms, as in graphite, or a set of up to five atomic sheets, as in Bi2 Te3` A layer may also have more complicated arrangements of the atoms, as we find for example in Sb S .
Автор: Vivian W. W. Yam Название: Photofunctional Transition Metal Complexes ISBN: 3642071902 ISBN-13(EAN): 9783642071904 Издательство: Springer Рейтинг: Цена: 52967.00 р. Наличие на складе: Есть у поставщика Поставка под заказ.
Описание: With contributions by numerous experts
Автор: M.S. Dresselhaus Название: Intercalation in Layered Materials ISBN: 1475755589 ISBN-13(EAN): 9781475755589 Издательство: Springer Рейтинг: Цена: 12157.00 р. Наличие на складе: Есть у поставщика Поставка под заказ.
Описание: This volume is prepared from lecture notes for the course "Intercalation in Layered Materials" which was held at the Ettore Majorana Centre for Scientific Culture at Erice, Sicily in July, 1986, as part of the International School of Materials Science and Tech- nology.
Описание: This new volume in the series Physics and Chemistry of Materials with Layered Structures satisfies the need for a comprehensive review of the progress made in the decade 1972-1982 in the field of the electronic properties of layer compounds.
Описание: A large variety of structural phase transitions, such as commensurate and incommensurate transitions, and the physical proper- ties related to the formation of a CDW, have been an object of intense study made for many years by methods employing modem microscopic techniques.
This thesis presents a combination of material synthesis and characterization with process modeling. In it, the CO2 adsorption properties of hydrotalcites are enhanced through the production of novel supported hybrids (carbon nanotubes and graphene oxide) and the promotion with alkali metals. Hydrogen is regarded as a sustainable energy carrier, since the end users produce no carbon emissions. However, given that most of the hydrogen produced worldwide comes from fossil fuels, its potential as a carbon-free alternative depends on the ability to capture the carbon dioxide released during manufacture. Sorption-enhanced hydrogen production, in which CO2 is removed as it is formed, can make a major contribution to achieving this. The challenge is to find solid adsorbents with sufficient CO2 capacity that can work in the right temperature window over repeated adsorption-desorption cycles.
The book presents a highly detailed characterization of the materials, together with an accurate measurement of their adsorption properties under dry conditions and in the presence of steam. It demonstrates that even small quantities of graphene oxide provide superior thermal stability to hydrotalcites due to their compatible layered structure, making them well suited as volume-efficient adsorbents for CO2. Lastly, it identifies suitable catalysts for the overall sorption-enhanced water gas shift process.
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