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Functionalization of Semiconductor Surfaces
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More About This Title Functionalization of Semiconductor Surfaces

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This book presents both fundamental knowledge and latest achievements of this rapidly growing field in the last decade. It presents a complete and concise picture of the the state-of-the-art in the field, encompassing the most active international research groups in the world.  Led by contributions from leading global research groups, the book discusses the functionalization of semiconductor surface. Dry organic reactions in vacuum and wet organic chemistry in solution are two major categories of strategies for functionalization that will be described.  The growth of multilayer-molecular architectures on the formed organic monolayers will be documented. The immobilization of biomolecules such as DNA on organic layers chemically attached to semiconductor surfaces will be introduced. The patterning of complex structures of organic layers and metallic nanoclusters toward sensing techniques will be presented as well.
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English

FRANKLIN (FENG) TAO, PhD, is Assistant Professor of Chemistry at the University of Notre Dame. His research group is actively involved in investigations of surface science, heterogeneous catalysis for efficient energy conversion, nanomaterials, and in situ studies of catalysts. Dr. Tao is the author of about 70 research articles and the recipient of the International Union of Pure and Applied Chemistry Prize for Young Chemists.

STEVEN L. BERNASEK, PhD, is Professor of Chemistry at Princeton University. His research focuses on chirality in self-assembled monolayers, surface functionalization and modification, organometallic surface chemistry, and dynamics of gas-surface interactions. Dr. Bernasek is the author of more than 200 research articles. He is also the recipient of several awards, including the ACS Arthur W. Adamson Award for Distinguished Service in the Advancement of Surface Chemistry.

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English

Chapter 1. Introduction
Franklin (Feng) Tao, Yuan Zhu, and Steven L. Bernasek

Chapter 2. Surface Analytical Techniques
Ying Wei Cai and Steven L. Bernasek

Chapter 3. Structures of Semiconductor Surfaces and Origins of Surface Reactivity with Organic Molecules
Yongquan Qu and Keli Han

Chapter 4. Pericyclic Reactions of Organic Molecules at Semiconductor Surfaces
Keith T. Wong and Stacey F. Bent

Chapter 5. Chemical Binding of Five-membered and Six-membered Aromatic Molecules
Franklin F. Tao and Steven L. Bernasek

Chapter 6. Influence of Functional Groups in Substituted Aromatic Molecules on the Selection of Reaction Channel in Semiconductor Surface Functionalization
Andrew V. Teplyakov

Chapter 7. Covalent Binding of Polycyclic Aromatic Hydrocarbon Systems
Dr. Yong Kian Soon and Professor Xu Guo-Qin

Chapter 8.
Young Hwan Min, Hangil Lee, Do Hwan Kim, and Sehun Kim

Chapter 9. Ab initio molecular dynamics studies of conjugated dienes on semiconductor surfaces
Mark E. Tuckerman and Yanli Zhang

Chapter 10. Formation of Organic Nanostructures on Semiconductor Surfaces
Zakir Hossian and Maki Kawai

Chapter 11. Formation of Organic Monolayers through Wet Chemistry
Damien Aureau and Yves J. Chabal

Chapter 12. Chemical Stability of Organic Monolayers Formed in Solution
Leslie E. O’Leary, Erik Johansson, and Nathan S. Lewis

Chapter 13. Immobilization of Biomolecules at Semiconductor Interfaces
Robert J. Hamers

Chapter 14. Perspective and Challenge
Franklin (Feng) Tao and Steven L. Bernasek

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