本书介绍纳米信息技术(光学、电学)和纳米替代能源(太阳能)的基本原理与应用。这三大主要技术领域因纳米结构材料的研发而关联。本书将原子水平的材料物理、材料化学与器件、系统的设计、整合及功能需求联系起来,集纳米电子、光学及太阳能领域国际水平的大家之作于一体,内容包括:分子电子学、光发射器的三维Si-Ge纳米结构、碳纳米管、亚细胞传感、DNA传感的纳米电子学、Li-Fe电池的纳米结构电极材料、生物燃料电池的铜蛋白合成模型等。
样章试读
目录
Paolo Lugli, Simone Locci, Christoph Erlen, and Gyorgy
2 Three-Dimensional Silicon–Germanium Nanostructures for CMOS-Compatible Light Emitters
D.J. Lockwood and L. Tsyb
3 On Application of Plasmas in Nanotechnologies
Zoran Lj. Petrovi′c, Paul Maguire, Marija Radmilovi′c-Radjenovi′c, Maja Radeti′c, Nevena Puaˇc, Dragana Mari′c, Charles Mahony, and Gordana Malovi′
4 All Carbon Nanotubes Are Not Created Equal
Gyula Eres, D.B. Geohegan, A.A. Puretzky, and C.M. Rou
5 Two Routes to Subcellular Sensing
G.F. Cerofo
6 Photothermal Sensing of Chemical Vapors Using Microcantilevers
Thomas Thundat, Charles W. Van Neste, Larry R. Senesac, and Adam R. Kr
7 Nanoelectronics for DNA Sensing
Predrag S. Krsti′
8 Nanostructured Electrode Materials for Lithium-Ion Batteries
A. Manthiram and T. Muraligan
9 Synthetic Models of Copper Proteins for Biofuel Cell Applications
Dominic F. Gervas
Index]]>