Our website is secured by bit SSL encryption issued by Verisign Inc , making your shopping at Sapnaonline as secure as possible.
- Learn more about Nanoelectronics.
- Product description.
- Top Authors?
- Aspects of Nanoelectronics in Materials Development;
- Nanoelectronics - an overview | ScienceDirect Topics!
- Introduction to Nanoelectronics: Science, Nanotechnology, Engineering, and Applications.
Hello World, this is a test. Login Please enter your login details. Forgot password? Remember Me?
Forgot Password? It happens, just reset it in a minute.
Sorry, incorrect details. Welcome back pal! Please enter your User Name, email ID and a password to register.
Refine your editions:
International Shipping at best shipping prices! Notify Me We will send an email as soon as we get it in stock. Write a Testimonial Few good words, go a long way, thanks! Personalize Gift card We will send an email to receiver for gift card. Continue Shopping Checkout. Reset Pincode. Submit a Review. JK Rowling. Home Introduction to Nanoelectronics: Science Click on below image to change. Click on image to Zoom. Stroscio Viatcheslav A. Average Rating.
Description This textbook is a comprehensive, interdisciplinary account of the technology and science underpinning nanoelectronics, covering the underlying physics, nanostructures, nanomaterials, and nanodevices. Stroscio , Viatcheslav A. Kochelap , Vladimir V.www.sharkpakind.com/wp-content/online/mali-ekip-mobil-takip.php
Introduction to Nanoelectronics
Submit Review Submit Review. Check Delivery Status. Dispatched in working days. Availability In Stock.
- Best Reference Books – Nanoelectronic Device Engineering.
- Unleashing the Power of Rubber Bands: Lessons in Non-Linear Leadership!
- All About Coton de Tulear Puppies.
- Log in to your account?
- Introduction to Nanoelectronics: Science, Nanotechnology, Engineering and Applications?
- Refine your editions:?
Guaranteed service. Highly energy-efficient less heat generation and power consumption optical communications are increasingly important because they have the potential to solve one of the biggest problems of our information age: energy consumption. In the field of nanotechnology, materials like nanofibers see for instance: " Light-emitting nanofibers shine the way for optoelectronic textiles " and carbon nanotubes have been used and especially graphene has shown exciting potential for optoelectronic devices.
Introduction to Nanoelectronics Science Nanotechnology Engineering and Applications Information
Display technologies can be grouped into three broad technology areas; Organic LEDs, electronic paper and other devices intended to show still images, and Field Emission Displays. For more, read our special section on Nanotechnology in Displays. The age of wearable electronics is upon us as witnessed by the fast growing array of smart watches, fitness bands and other advanced, next-generation health monitoring devices such as electronic stick-on tattoos.
If current research is an indicator, wearable electronics will go far beyond just very small electronic devices or wearable, flexible computers. Not only will these devices be embedded in textile substrates but an electronics device or system could ultimately become the fabric itself. Electronic textiles e-textiles will allow the design and production of a new generation of garments with distributed sensors and electronic functions. Such e-textiles will have the revolutionary ability to sense, act, store, emit, and move — think biomedical monitoring functions or new man-machine interfaces — while ideally leveraging an existing low-cost textile manufacturing infrastructure see for instance " wearing single-walled carbon nanotube electronics on your skin ", a " temporary tattoo to monitor glucose levels " or " graphene nanosensor tattoo on teeth monitors bacteria in your mouth ".
Optical image of the graphene wireless sensor biotransferred onto the surface of a tooth. Solar cells and supercapacitors are examples of areas where nanoelectronics is playing a major role in energy generation and storage. To learn more read our detailed sections on Nanotechnology in Energy and Graphene Nanotechnology in Energy.
Distinct from nanoelectronics, where devices are scaled down to nanoscale levels, molecular electronics deals with electronic processes that occur in molecular structures such as those found in nature, from photosynthesis to signal transduction. Molecular electronics aims at the fundamental understanding of charge transport through molecules and is motivated by the vision of molecular circuits to enable miniscule, powerful and energy efficient computers see for instance: " Adding an optoelectronic component to molecular electronics ".