Handbook of Single-Molecule Electronics
Coordonnateur : Moth-Poulsen Kasper
Single-molecule electronics has evolved as a vibrant research field during the last two decades. The vision is to be able to create electronic components at the highest level of miniaturization?the single molecule. This book compiles and details cutting-edge research with contributions from chemists, physicists, theoreticians, and engineers. It covers all aspects of single-molecule electronics, from the theory through experimental realizations and the chemical synthesis of molecular components to the implementation of molecular components in future integrated circuits.
This book describes in detail both established methods and recent advances in the field, including vibrational effects, switching phenomena, quantum interference, thermal power, and parallel assembly strategies. The authors add more details to the chapters than typically found in the primary literature so that the book can be read not only by specialists but also by non-experts and students with an interest in the research field. Each chapter is accompanied by problems, and a solutions manual is also provided.
Experimental Techniques. The Basics of Electron Transport Theory. First-Principles Simulations of Electron Transport in Atomic-Scale Systems. Controlling the Molecule–Electrode Contact in Single-Molecule Devices. Vibrational Excitations in Single-Molecule Junctions. Self-Assembly at Interfaces. Switching Mechanisms in Molecular Switches. Thermoelectricity in Molecular Junctions. Interference Effects in Single-Molecule Transport. Parallel Self-Assembly Strategies towards Multiple Single-Molecule Electronic Devices. Towards Circuit Design in Single-Molecule Electronics.
Kasper Moth-Poulsen received his PhD in 2007 from University of Copenhagen, Denmark. He continued his career as a post doctoral scholar in Copenhagen (2007–2009) and at University of California, Berkeley (2009–2010) before joining Chalmers University of Technology, Gothenburg, Sweden, as an assistant (2011–2014) and associate professor (2014–). His research activities focus on nanomaterials chemistry, synthesis, and assembly of single-molecule electronic components and on development of methods for conversion and storage of solar energy.
Date de parution : 08-2015
15.2x22.9 cm
Thèmes de Handbook of Single-Molecule Electronics :
Mots-clés :
Molecular Junction; Single Molecule Devices; Experimental Techniques; American Chemical Society; The Basics of Electron Transport Theory; Single Molecule Electronics; Self-Assembly at Interfaces; Single Molecule Junction; Molecular Switches; Green’s Function; Interference Effects in Single-Molecule Transport; Nanogap Electrodes; Fermi Energy; Molecular Orbitals; IETS; Conductance Histograms; Nonequilibrium Green’s Functions; Chemical Potential; SAMs; Franck Condon Factors; Molecule Electrode Contact; DNA Origami; STM Image; Tunnel Junction; Vibrational Excitations; TTF Unit; Electron Phonon Coupling; Weak Coupling Regime; Coulomb Blockade