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  • 301pp. Published January 2017
  • Scientific Research Publishing, Inc.,USA.
  • Category: Chemistry & Materials Science
  • ISBN: 978-1-61896-298-0
  • (Hardcover) USD 109.00
  • ISBN: 978-1-61896-297-3
  • (Paperback) USD 89.00
Authors/Editors Price: 40% off
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Home > Books > Advances in Surface Chemistry
Advances in Surface Chemistry
  • Description
  • Author(s) Information

Surface chemistry, study of chemical reactions in which the reactants are first adsorbed onto a surface medium (see adsorption) that then acts as a catalyst for the reaction; after the reaction the products are desorbed and the surface is left unchanged. Since the entire reaction takes place on the surface, the amount of surface area of catalyst per unit weight determines the effectiveness of the surface in the reaction. Some silica surfaces have over 200 square meters of surface area per gram. An example of a surface reaction is the reaction of an unsaturated organic molecule with hydrogen on finely divided platinum or with bromine on finely divided silica. Enzyme reactions can, in principle, also be considered surface reactions, since the reaction takes place on the enzyme surface after the enzyme has bound the reactants; however, usually only heterogeneous (two-phase) reactions are considered true surface reactions, while enzyme reactions are homogeneous (one-phase) systems.


In the present book, ten typical literatures about surface chemistry published on international authoritative journals were selected to introduce the worldwide newest progress, which contains reviews or original researches on surface science, geochemistry, electrochemistry, chemical engineering, ect. We hope this book can demonstrate advances in surface chemistry as well as give references to the researchers, students and other related people.

Components of the Book:
  • Chapter 1
    Improving Surface and Defect Center Chemistry of Fluorescent Nanodiamonds for Imaging Purposes—A Review
  • Chapter 2
    Adsorption of Atrazine on Hemp Stem-Based Activated Carbons with Different Surface Chemistry
  • Chapter 3
    Surface Chemistry and Effects on Bone Regeneration of a Novel Biomimetic Synthetic Bone Filler
  • Chapter 4
    Surface Chemistry of SnO2 Nanowires on Ag-Catalyst-Covered Si Substrate Studied Using XPS and TDS Methods
  • Chapter 5
    Surface Chemistry of Ti6Al4V Components Fabricated Using Selective Laser Melting for Biomedical Applications
  • Chapter 6
    The Effect of Laser Remelting on the Surface Chemistry of Ti6al4Vcomponents Fabricated by Selective Laser Melting
  • Chapter 7
    Copper-Free Click Chemistry for Attachment of Biomolecules in Magnetic Tweezers
  • Chapter 8
    XPS, TDS, and AFM Studies of Surface Chemistry and Morphology of Ag-Covered L-CVD SnO2 Nanolayers
  • Chapter 9
    Influence of Copper Layer on Epoxy Acrylate Based Solder Mask Surface Chemistry and the Effect on Epoxy Adhesion
  • Chapter 10
    Global Distribution and Surface Activity of Macromolecules in Offline Simulations of Marine Organic Chemistry
Readership: Students, academics, teachers and other people attending or interested in Surface Chemistry.
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