Description

Book Synopsis
This volume explores the chemical basis of lithography, with the goal of deconstructing lithography into its essential chemical principles and to situate its various aspects in specific fields of chemistry. It is organized in five parts, comprising: lithographic process chemistry, lithographic materials chemistry, lithographic photo- and radiation chemistry, chemistry of lithographic imaging mechanisms, and lithographic process-induced chemistry.

With the successful implementation of EUV lithography in manufacturing at the 10-nm and 7-nm technology nodes, patterning challenges have shifted from resolution to mostly noise and sensitivity. This is a regime where the resist suffers from increased stochastic variation and the attendant effects of shot noise—a consequence of the discrete nature of photons, which, at very low number per exposure pixel, show increased variability in the response of the resist relative to its mean. Noise in this instance is the natural variation in lithographic pattern placement, shape, and size. It causes line edge roughness, line width variation, and stochastic defects.

Ultimately, these patterning issues have their origin in the materials used in lithography. Chemistry underpins the essence, functions, and properties of these materials. We therefore examine in the second volume of the present edition the role of stochastics in EUV lithography in far greater detail than we did in the first edition. Equally significant, the book develops a chemistry and lithography interaction matrix, which is used as a device to explore how various aspects and practices of photolithography (or optical lithography), electron-beam lithography, ion-beam lithography, EUV lithography, imprint lithography, directed self-assembly lithography, and proximal probe lithography derive from established chemical principles and phenomena.

Table of Contents
  • Lithographic Process Chemistry
  • Lithographic Materials Chemistry
  • Lithographic Photochemistry and Radiation Chemistry
  • Chemistry of Lithographic Imaging Mechanisms
  • Lithographic-Process-Induced Chemistry

Chemistry and Lithography, Volume 2: Chemistry in

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A Paperback / softback by Uzodinma Okoroanyanwu

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    View other formats and editions of Chemistry and Lithography, Volume 2: Chemistry in by Uzodinma Okoroanyanwu

    Publisher: SPIE Press
    Publication Date: 30/09/2023
    ISBN13: 9781510655577, 978-1510655577
    ISBN10: 1510655573
    Also in:
    Chemistry Applied optics Nanotechnology

    Description

    Book Synopsis
    This volume explores the chemical basis of lithography, with the goal of deconstructing lithography into its essential chemical principles and to situate its various aspects in specific fields of chemistry. It is organized in five parts, comprising: lithographic process chemistry, lithographic materials chemistry, lithographic photo- and radiation chemistry, chemistry of lithographic imaging mechanisms, and lithographic process-induced chemistry.

    With the successful implementation of EUV lithography in manufacturing at the 10-nm and 7-nm technology nodes, patterning challenges have shifted from resolution to mostly noise and sensitivity. This is a regime where the resist suffers from increased stochastic variation and the attendant effects of shot noise—a consequence of the discrete nature of photons, which, at very low number per exposure pixel, show increased variability in the response of the resist relative to its mean. Noise in this instance is the natural variation in lithographic pattern placement, shape, and size. It causes line edge roughness, line width variation, and stochastic defects.

    Ultimately, these patterning issues have their origin in the materials used in lithography. Chemistry underpins the essence, functions, and properties of these materials. We therefore examine in the second volume of the present edition the role of stochastics in EUV lithography in far greater detail than we did in the first edition. Equally significant, the book develops a chemistry and lithography interaction matrix, which is used as a device to explore how various aspects and practices of photolithography (or optical lithography), electron-beam lithography, ion-beam lithography, EUV lithography, imprint lithography, directed self-assembly lithography, and proximal probe lithography derive from established chemical principles and phenomena.

    Table of Contents
    • Lithographic Process Chemistry
    • Lithographic Materials Chemistry
    • Lithographic Photochemistry and Radiation Chemistry
    • Chemistry of Lithographic Imaging Mechanisms
    • Lithographic-Process-Induced Chemistry

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