Artificial Intelligence (AI) Applications in Chemistry

Ishita Naik, Dishita Naik, Nitin Naik

Research output: Chapter in Book/Published conference outputConference publication

Abstract

The production of chemicals is a complex task due to the highly nonlinear behaviour of chemical processes; therefore, traditional approaches may not be very effective in developing or predicting such processes and their outcomes at optimal level. Consequently, it has always been challenging to find ways to improve efficiency and productivity while reducing the time and cost. Artificial Intelligence (AI) techniques are becoming valuable in chemistry due to several reasons such as easy to learn and use, simple implementation, easy designing, effectiveness, generality, robustness, and flexibility. AI is comprised of several techniques within it, such as artificial neural networks, evolutionary algorithms and fuzzy logic. AI techniques have been widely used in various areas of chemistry including molecule design, molecular property prediction, retrosynthesis, reaction outcome prediction and reaction conditions prediction. Therefore, this paper investigates AI applications in the aforementioned areas, wherein it explains about each aforementioned area with a suitable example, limitations of traditional techniques, and types of AI techniques which are utilised within those areas.
Original languageEnglish
Title of host publicationContributions Presented at the 22nd UK Workshop on Computational Intelligence (UKCI 2023), September 6–8, 2023, Birmingham, UK
EditorsNitin Naik, Paul Jenkins, Paul Grace, Longzhi Yang, Shaligram Prajapat
PublisherSpringer
Pages545-557
Number of pages13
ISBN (Electronic)9783031475085
ISBN (Print)9783031475078
DOIs
Publication statusPublished - 1 Feb 2024

Publication series

NameAdvances in Computational Intelligence Systems
PublisherSpringer
Volume1453
ISSN (Print)2194-5357
ISSN (Electronic)2194-5365

Keywords

  • Artificial Intelligence
  • AI
  • De Novo Design
  • Molecule Design
  • Molecular Property Prediction
  • Retrosynthesis
  • Reaction Outcome Prediction
  • Reaction Conditions Prediction
  • QSAR
  • QSPR

Access to Document

Other files and links

Fingerprint

Dive into the research topics of 'Artificial Intelligence (AI) Applications in Chemistry'. Together they form a unique fingerprint.
View full fingerprint
  • 5 Conference publication

  • Analysing Cyberattacks Using Attack Tree and Fuzzy Rules

    Naik, N., Jenkins, P., Grace, P., Naik, D., Prajapat, S., Song, J., Xu, J. & M. Czekster, R., 1 Feb 2024, Contributions Presented at the 22nd UK Workshop on Computational Intelligence (UKCI 2023), September 6–8, 2023, Birmingham, UK. Naik, N., Jenkins, P., Grace, P., Yang, L. & Prajapat, S. (eds.). p. 364-378 (Advances in Computational Intelligence Systems; vol. 1453).

    Research output: Chapter in Book/Published conference outputConference publication

  • An Introduction to Federated Learning: Working, Types, Benefits and Limitations

    Naik, D. & Naik, N., 1 Feb 2024, Contributions Presented at the 22nd UK Workshop on Computational Intelligence (UKCI 2023), September 6–8, 2023, Birmingham, UK. Naik, N., Jenkins, P., Grace, P., Yang, L. & Prajapat, S. (eds.). p. 3-17 (Advances in Computational Intelligence Systems ; vol. 1453).

    Research output: Chapter in Book/Published conference outputConference publication

  • Cyberattack Analysis Utilising Attack Tree with Weighted Mean Probability and Risk of Attack

    Naik, N., Jenkins, P., Grace, P., Prajapat, S., Song, J., Xu, J. & M. Czekster, R., 1 Feb 2024, Contributions Presented at the 22nd UK Workshop on Computational Intelligence (UKCI 2023), September 6–8, 2023, Birmingham, UK. Naik, N., Jenkins, P., Grace, P., Yang, L. & Prajapat, S. (eds.). p. 351-363 (Advances in Computational Intelligence Systems; vol. 1453).

    Research output: Chapter in Book/Published conference outputConference publication

View all 5 research outputs

Cite this