In this most up-to-date handbook each chapter contains a general introduction, followed by the principles of the immobilization and, finally, applications.
Here, the world's most active and productive computational scientists from academia and industry present established, effective and powerful tools for understanding catalysts.
Based on results previously restricted for military use and inaccessible to the public, this practice-oriented handbook introduces the use of enzymes for fast and efficient decontamination of B/C weapons in various scenarios, including terrorist attacks.
Volume 7 in the well-established series "e;Advances in Electrochemical Science and Engineering"e; covers - among others - important topics on electrodeposition.
Volume 6 in the well-establish series Advances in Electrochemical Science and Engineering covers - among others - such important topics as time dependent modulation techniques and computer modeling by continuum and non-continuum methods.
Like its predecessors, volume three of this meanwhile well-established series covers selected topics from electrochemical science and its applications.
This new edition of the best-selling handbook gives a complete and concise description of the latest knowledge on nuclear and radiochemistry as well as their applications in the various fields of science.
This journey through the fascinating world of molecular topology focuses on catenanes, rotaxanes and knots, their synthesis, properties, and applications and the theory of interlocking and interpenetrating molecules.
Recent progress in high-throughput screening, combinatorial chemistry and molecular biology has radically changed the approach to drug discovery in the pharmaceutical industry.
Semiconductor electrochemistry deals with many aspects, ranging from fundamental semiconductor physics to complex effects, such as charge transfer processes at semiconductor-liquid surfaces or photoreactions at semiconductor particles.
Surface Characterization provides an authoritative guide to the wide range of powerful techniques that are used to characterize the surfaces of materials.
This is the first book to present both classical and quantum-chemical approaches to computational methods, incorporating the many new developments in this field from the last few years.
A new window to local studies of interface phenomena at solid state surfaces has been opened by the development of local probe techniques such as Scanning Tunneling Microscopy (STM) or Atomic Force Microscopy (AFM) and related methods during the past fifteen years.
In this concise handbook leading experts give a broad overview of the latest developments in this emerging and fascinating field of nano-sized materials.
This is a book for developers of catalysts, and for practitioners working in the field of design, operation, and optimization of chemical reactors in which heterogeneous catalysis is performed.
While the treatment of water and exhaust gas using ultraviolet (UV) light offers both ecological and economic advantages, information on photo-initiated advanced oxidation technologies (AOTs) has been dispersed among various journals and proceedings until now.
An integrated approach to the molecular theory of reaction mechanism in heterogeneous catalysis, largely based on the knowledge among the growing theoretical catalysis community over the past half century, and covering all major catalytic systems.
Knowledge of the excitation characteristics of matter is decisive for the descriptions of a variety of dynamical processes, which are of significant technological interest.
Edited by two of the experts in the field, the central aim is to show organic chemists working in process development that enantioselective catalysis is suitable for the large-scale production of enantioenriched intermediates.
