For many years now, engineering at the very small scale has remained
the driving force behind a significant share of the global economy. Over
the past four decades, microelectronic devices have proliferated and their
myriad uses have increasingly defined our modern lifestyles. Throughout
the microelectronics era, the sizes of individual devices integrated on
semiconductor chips have been steadily reduced. With this trend still
continuing, a future is in sight when we shall reach the end of the road
for conventional device miniaturization.l
After the introductory chapter the book is divided into two parts.
The first is comprised of works that deal with electronic applications of
nanotechnology whereas the following part is constituted of
nanotechnology applications in pushing the frontiers of photonic
technologies. The chapters are focused on experimental aspects of
nanotechnology rather than theoretical studies or computer modeling. All
the contributors are active researchers in their fields of specialization and
thus this book provides an up-to-date survey of the state of contemporary
nanotechnology. The publisher, editor and contributors hope that it will
be useful to both students and professional researchers alike.l
.....
Link http://depositfiles.com/en/files/uxhzld4rv Good Luck
جزاكم الله خيراً دكتورنا الغالي د./ سعد ==================== معلومات إضافية عن الكتاب Nanostructures In Electronics And Photonics By Faiz Rahman
Publisher: Pan Stanford Publishing Number Of Pages: 316 Publication Date: 2008-04-11 ISBN-10 / ASIN: 9814241105 ISBN-13 / EAN: 9789814241106
Description Nanotechnology is the buzzword these days. This book provides a broad overview of nanotechnology as applied to contemporary electronics and photonics. The areas of application described are typical of what originally set off the nanotechnology revolution. An account of original research contributions from researchers all over the world, the book is extremely valuable for gaining an understanding of the latest developments in applied nanotechnology. Clearly structured and readable, the book is useful for both students and researchers alike: students can learn about the various aspects of nanotechnology and professional researchers can update themselves on the new developments in this dynamic field. The book covers nanoscale materials and devices for both electronics and optical technologies. The emphasis throughout is on experimental methods rather than theoretical modeling. The material will provide food for thought for researchers and research students keen to develop new technologies at the ultra-small scale and to open up new avenues for research. Contents From Microstructures for Nanostructures ...... F Rahman Nanoscale Materials and Structures for Electronics: Assembling Ferromagnetic Single-electron Transistors with Atomic Force Microscopy ....... H Pettersson et al. Nanoporous Alumina Templates for Nanowire Electron Devices ....... T L Wade et al. Single-walled Carbon Nanotube Transistors (S Kim & S Mohammadi); Cooling with Integrated Carbon Nanotube Films (G Tóth et al.); AC Dielectrophoresis Alignment of Gallium Nitride Nanowires (GaN NWs) for Use in Device Applications (S-K Lee et al.); Design, Fabrication, and Applications of Large-area Well-ordered Dense-array Three-dimensional Nanostructures (C-H Choi & C-J CJ Kim); UV-NIL Stamp Fabrication Techniques with Diamond-like Carbon Film (J-H Jeong et al.); ZnO Nanowires and Nanobelts: Structure Switch by Indium Doping (H J Fan); Field Emission Properties of 1-D SiC Nanostructures (G-Z Shen & D Chen); Nanoscale Materials and Structures for Photonics: Manipulating the Optical Properties of Individual and Arrays of Gold Nanopyramids (J Lee et al.); Properties of Gold Nanoantennas in the Infrared (F Neubrech et al.); Three-dimensional Holographic Polymeric Photonic Crystal Operating in the Optical communication Window (J-Q Chen & R T Chen); Continuous Roll Nano-imprinting Technology for Large-scale Nano- and Microstructures (S Kang et al.); Fabrication and Characterization of Two-dimensional ZnO Photonic Nanostructrures (J-B Cui); Visible Light Emission from Innate Silicon Nanoparticles in Silicon-compound Films Grown at Low Temperatures (Z-X Cao).
