Description

Book Synopsis
New technologies are made possible by new materials, and until recently new materials could only be discovered experimentally. Recent advances in solving the crystal structure prediction problem means that the computational design of materials is now a reality. Computational Materials Discovery provides a comprehensive review of this field covering different computational methodologies as well as specific applications of materials design. The book starts by illustrating how and why first-principle calculations have gained importance in the process of materials discovery. The book is then split into three sections, the first exploring different approaches and ideas including crystal structure prediction from evolutionary approaches, data mining methods and applications of machine learning. Section two then looks at examples of designing specific functional materials with special technological relevance for example photovoltaic materials, superconducting materials, topological insulators and thermoelectric materials. The final section considers recent developments in creating low-dimensional materials. With contributions from pioneers and leaders in the field, this unique and timely book provides a convenient entry point for graduate students, researchers and industrial scientists on both the methodologies and applications of the computational design of materials.

Table of Contents
Computational Materials Discovery: Dream or Reality?; Computational Materials Discovery Using Evolutionary Algorithms; Applications of Machine Learning for Representing Interatomic Interactions; Embedding Methods in Materials Discovery; Chemical Bonding Investigations for Materials; Computational Design of Photovoltaic Materials; First-Principles Computational Approaches to Superconducting Transition Temperatures: Phonon-Mediated Mechanism and Beyond; Quest for New Thermoelectric Materials; Rational Design of Polymer Dielectrics: An Application of Density Functional Theory and Machine Learning; Rationalising and Predicting the Structure and Bonding of Bare and Ligated Transition Metal Clusters and Nanoparticles; Recent Advances in the Theory of Non-carbon Nanotubes; Discovery of Novel Topological Materials Via High-throughput Computational Search; Computational Discovery of Organic LED Materials

Computational Materials Discovery

Product form

£160.55

Includes FREE delivery

RRP £169.00 – you save £8.45 (5%)

Order before 4pm today for delivery by Fri 2 Jan 2026.

A Hardback by Artem R Oganov, Gabriele Saleh, Alexander G Kvashnin

Out of stock


    View other formats and editions of Computational Materials Discovery by Artem R Oganov

    Publisher: Royal Society of Chemistry
    Publication Date: 02/11/2018
    ISBN13: 9781782629610, 978-1782629610
    ISBN10: 1782629610
    Also in:
    Computational chemistry Physical chemistry Materials science

    Description

    Book Synopsis
    New technologies are made possible by new materials, and until recently new materials could only be discovered experimentally. Recent advances in solving the crystal structure prediction problem means that the computational design of materials is now a reality. Computational Materials Discovery provides a comprehensive review of this field covering different computational methodologies as well as specific applications of materials design. The book starts by illustrating how and why first-principle calculations have gained importance in the process of materials discovery. The book is then split into three sections, the first exploring different approaches and ideas including crystal structure prediction from evolutionary approaches, data mining methods and applications of machine learning. Section two then looks at examples of designing specific functional materials with special technological relevance for example photovoltaic materials, superconducting materials, topological insulators and thermoelectric materials. The final section considers recent developments in creating low-dimensional materials. With contributions from pioneers and leaders in the field, this unique and timely book provides a convenient entry point for graduate students, researchers and industrial scientists on both the methodologies and applications of the computational design of materials.

    Table of Contents
    Computational Materials Discovery: Dream or Reality?; Computational Materials Discovery Using Evolutionary Algorithms; Applications of Machine Learning for Representing Interatomic Interactions; Embedding Methods in Materials Discovery; Chemical Bonding Investigations for Materials; Computational Design of Photovoltaic Materials; First-Principles Computational Approaches to Superconducting Transition Temperatures: Phonon-Mediated Mechanism and Beyond; Quest for New Thermoelectric Materials; Rational Design of Polymer Dielectrics: An Application of Density Functional Theory and Machine Learning; Rationalising and Predicting the Structure and Bonding of Bare and Ligated Transition Metal Clusters and Nanoparticles; Recent Advances in the Theory of Non-carbon Nanotubes; Discovery of Novel Topological Materials Via High-throughput Computational Search; Computational Discovery of Organic LED Materials

    Recently viewed products

    © 2025 Book Curl

      • American Express
      • Apple Pay
      • Diners Club
      • Discover
      • Google Pay
      • Maestro
      • Mastercard
      • PayPal
      • Shop Pay
      • Union Pay
      • Visa

      Login

      Forgot your password?

      Don't have an account yet?
      Create account