Track Order   | Customer Support   | Request Book   |
International Order
Nanotechnology For Electronic Materials And Devices (Nanostructure Science And Technology) 2007 Edition at Meripustak

Nanotechnology For Electronic Materials And Devices (Nanostructure Science And Technology) 2007 Edition

Books from same Author: KORKIN, A. ET. AL.

Books from same Publisher: SPRINGER

Related Category: Author List / Publisher List

  • Retail Price: ₹ 20059/- [ 0.00% off ]

    Seller Price: ₹ 20059

Sold By: T K Pandey      Click for Bulk Order

Offer 1: Get ₹ 111 extra discount on minimum ₹ 500 [Use Code: Bharat]

Offer 2: Get 0.00 % + Flat ₹ 100 discount on shopping of ₹ 1500 [Use Code: IND100]

Offer 3: Get 0.00 % + Flat ₹ 300 discount on shopping of ₹ 5000 [Use Code: MPSTK300]

Free Shipping (for orders above ₹ 499) *T&C apply.

In Stock

Free Shipping Available


Click for International Orders
  • Provide Fastest Delivery
  • 100% Original Guaranteed
    • General Information  
    Author(s)KORKIN, A. ET. AL.
    PublisherSPRINGER
    ISBN9780387233499
    Pages368
    BindingHardbound
    LanguageEnglish
    Publish YearDecember 2006

    Description

    SPRINGER Nanotechnology For Electronic Materials And Devices (Nanostructure Science And Technology) 2007 Edition by KORKIN, A. ET. AL.

    Quickly becoming the hottest topic of the new millennium (2.4 billion dollars funding in US alone)Current status and future trends of micro and nanoelectronics researchWritten by leading experts in the corresponding research areasExcellent tutorial for graduate students and reference for "gurus"Provides a broad overlook and fundamentals of nanoscience and nanotechnology from chemistry to electronic devices A Hybrid Route from CMOS to Nano and Molecular Electronics.- From SOI Basics to Nano-Size MOSFETs.- Strategies of Nanoscale Semiconductor Lasers.- Silicon Nanocrystal Nonvolatile Memory.- Novel Dielectric Materials for Future Transistor Generations.- Scanning Force Microscopies for Imaging and Characterization of Nanostructured Materials.- Simulation of Nano-CMOS Devices: From Atoms to Architecture.- Lattice Polarons and Switching in Molecular Nanowires and Quantum Dots.