Provides the reader with the most up to date information and development in the Nanofabrication area
Readers will learn the advantages and disadvantages of specific nanofabrication techniques depending on the application they are working on
Focuses on the practical aspects of nanofabrication with examples drawn from both primary research and industrial applications
Provides detailed information and a deillegalscription of emerging molecular self-assembly techniques which are increasingly being used as ways of making nanostructures
This book provides the reader with the most up-to-date information and development in the Nanofabrication area. It presents a one-stop deillegalscription at the introduction level on most of the technologies that have been developed which are capable of making structures below 100nm. Principles of each technology are introduced and illustrated with minimum mathematics involved. The book serves as a practical guide and first hand reference for those working in nanostructure fabrication.
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Nanofabrication: Principles, Capabilities and Limits presents a one-stop deillegalscription at the introductory level on most technologies that have been developed which are capable of making structures below 100nm.
Principles of each technology are introduced and illustrated with minimum mathematics involved. The capabilities of each technology in making sub-100nm structures are described. The limits of preventing a technology from further going down the dimensional scale are analyzed.
Drawing upon years of practical experience and using numerous examples, Zheng Cui covers state-of-the art technologies in nanofabrication including:
- Photon-based lithography
- Charged particle beams lithography
- Nanofabrication using scanning probes
- Nanoscale replication
- Nanoscale pattern transfer
- Indirect nanofabrication
- Nanofabrication by self-assembly
Nanofabrication: Principles, Capabilities and Limits will serve as a practical guide and first-hand reference for researchers and practitioners working in nanostructure fabrication and also provides a "tool box" of various techniques that can be easily adapted in different fields of applications.
Written for: Nanoscience and nanotechnology researchers and engineers, technical professionals and academic researchers in the fields of electrtonics, mechanical engineering, and chemical engineering.
Nanofabrication by Photons.- Nanofabrication by Charged Beams.- Nanofabrication by Scanning Probes.- Nanofabrication by Replication.- Nanoscale Pattern Transfer.- Indirect Nanofabrication.- Nanofabrication by Self-Assembly.
Nanofabrication: Principles, Capabilities and Limits presents a one-stop deillegalscription at the introductory level on most technologies that have been developed which are capable of making structures below 100nm.
Principles of each technology are introduced and illustrated with minimum mathematics involved. The capabilities of each technology in making sub-100nm structures are described. The limits of preventing a technology from further going down the dimensional scale are analyzed.
Drawing upon years of practical experience and using numerous examples, Zheng Cui covers state-of-the art technologies in nanofabrication including:
- Photon-based lithography
- Charged particle beams lithography
- Nanofabrication using scanning probes
- Nanoscale replication
- Nanoscale pattern transfer
- Indirect nanofabrication
- Nanofabrication by self-assembly
Nanofabrication: Principles, Capabilities and Limits will serve as a practical guide and first-hand reference for researchers and practitioners working in nanostructure fabrication and also provides a "tool box" of various techniques that can be easily adapted in different fields of applications.
Written for: Nanoscience and nanotechnology researchers and engineers, technical professionals and academic researchers in the fields of electrtonics, mechanical engineering, and chemical engineering.
Inhaltsverzeichnis
Nanofabrication by Photons.- Nanofabrication by Charged Beams.- Nanofabrication by Scanning Probes.- Nanofabrication by Replication.- Nanoscale Pattern Transfer.- Indirect Nanofabrication.- Nanofabrication by Self-Assembly.
Klappentext
Nanofabrication: Principles, Capabilities and Limits presents a one-stop deillegalscription at the introductory level on most technologies that have been developed which are capable of making structures below 100nm.
Principles of each technology are introduced and illustrated with minimum mathematics involved. The capabilities of each technology in making sub-100nm structures are described. The limits of preventing a technology from further going down the dimensional scale are analyzed.
Drawing upon years of practical experience and using numerous examples, Zheng Cui covers state-of-the art technologies in nanofabrication including:
Photon-based lithography
Charged particle beams lithography
Nanofabrication using scanning probes
Nanoscale replication
Nanoscale pattern transfer
Indirect nanofabrication
Nanofabrication by self-assembly
Nanofabrication: Principles, Capabilities and Limits will serve as a practical guide and first-hand reference for researchers and practitioners working in nanostructure fabrication and also provides a "tool box" of various techniques that can be easily adapted in different fields of applications.
Written for: Nanoscience and nanotechnology researchers and engineers, technical professionals and academic researchers in the fields of electrtonics, mechanical engineering, and chemical engineering.
Provides the reader with the most up to date information and development in the Nanofabrication area
Readers will learn the advantages and disadvantages of specific nanofabrication techniques depending on the application they are working on
Focuses on the practical aspects of nanofabrication with examples drawn from both primary research and industrial applications
Provides detailed information and a deillegalscription of emerging molecular self-assembly techniques which are increasingly being used as ways of making nanostructures