Nano- and Microscience, Engineering, Technology and Medicine

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1 - 9 of 9 Series Titles

Micromechatronics: Modeling, Analysis, and Design with MATLAB, Second Edition

Victor Giurgiutiu, Sergey Edward Lyshevski

May 28, 2009

Focusing on recent developments in engineering science, enabling hardware, advanced technologies, and software, Micromechatronics: Modeling, Analysis, and Design with MATLAB®, Second Edition provides clear, comprehensive coverage of mechatronic and electromechanical systems. It applies cornerstone 

Molecular Electronics, Circuits, and Processing Platforms

Sergey Edward Lyshevski

August 20, 2007

When microelectronic devices replaced vacuum tubes, it marked a revolution in electronics that opened the way to the computer age. We are on the verge of witnessing another equally profound shift. As molecular devices replace semiconductors, we will achieve new levels of performance, functionality 

Nano and Molecular Electronics Handbook

Sergey Edward Lyshevski

May 30, 2007

There are fundamental and technological limits of conventional microfabrication and microelectronics. Scaling down conventional devices and attempts to develop novel topologies and architectures will soon be ineffective or unachievable at the device and system levels to ensure desired performance. 

Logic Design of NanoICS

Svetlana N. Yanushkevich, Vlad P. Shmerko, Sergey Edward Lyshevski

October 28, 2004

Today's engineers will confront the challenge of a new computing paradigm, relying on micro- and nanoscale devices. Logic Design of NanoICs builds a foundation for logic in nanodimensions and guides you in the design and analysis of nanoICs using CAD. The authors present data structures developed 

Micromechatronics: Modeling, Analysis, and Design with MATLAB

Victor Giurgiutiu, Sergey Edward Lyshevski

December 29, 2003

Mechatronics-the breakthrough concept in the design and analysis of electromechanical systems and the unified cornerstone of modern engineering. Microsystems-the future of technology, but fraught with the challenges inherent at small scales. Apply the power and versatility of mechatronics to 

Microdrop Generation

Eric R. Lee

December 10, 2002

The applications and use of inkjet-like microfluidic drop ejectors have grown rapidly in many fields, including biotechnology, drug discovery, combinatorial chemistry, and microfabrication. Yet to date, end users and even designers of microdrop systems for scientific applications have had no books 

Nanoelectromechanics in Engineering and Biology

Michael Pycraft Hughes

October 29, 2002

The success, growth, and virtually limitless applications of nanotechnology depend upon our ability to manipulate nanoscale objects, which in turn depends upon developing new insights into the interactions of electric fields, nanoparticles, and the molecules that surround them. In the first book to 

Microelectrofluidic Systems: Modeling and Simulation

Tianhao Zhang, Krishnendu Chakrabarty, Richard B. Fair

May 17, 2002

Composite systems that integrate microelectromechanical and microelectrofluidic (MEF) components with electronics are emerging as the next generation of system-on-a-chip (SOC) designs. However, there remains a pressing need for a structured methodology for MEFS design automation, including 

MEMS and NEMS: Systems, Devices, and Structures

Sergey Edward Lyshevski

January 18, 2002

The development of micro- and nano-mechanical systems (MEMS and NEMS) foreshadows momentous changes not only in the technological world, but in virtually every aspect of human life. The future of the field is bright with opportunities, but also riddled with challenges, ranging from further 

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