Artificial Intelligence and Nanotechnology: Future Innovations in Chemistry in the Era of Web 3.0

Authors

DOI:

https://doi.org/10.63034/esr-452

Keywords:

Artificial intelligence, nanotechnology, chemistry, Web 3.0, nanomaterials, nanocatalysts, molecular modeling, chemical synthesis, data analysis, blockchain, intellectual property, future innovations, decentralized technologies

Abstract

Artificial intelligence plays a key role in predicting chemical reactions, molecular modeling, data analysis, and optimizing chemical synthesis. Nanotechnology is widely used to develop nanomaterials and nanocatalysts that enhance the efficiency of chemical reactions.

In addition, Web 3.0 technologies bring new opportunities to the field of chemistry, particularly by addressing issues such as data security and the protection of intellectual property rights. The integration of artificial intelligence, nanotechnology, and Web 3.0 technologies allows innovations and scientific research in chemistry to reach a new level.

The combination of these three technologies increases the efficiency, safety, and sustainability of chemical processes.

References

Kudaibergenuly, A. (2020). Artificial Intelligence and Its Role in Science. Almaty: Mektep Publishing.

Seitkazy, Zh. (2021). Application of Nanotechnology in the Field of Chemistry. Astana: Foliant.

Junisova, G. (2022). Technological Innovations in the Era of Web 3.0. Almaty: Atamura.

Toleuov, A. (2021). Nanomaterials and Their Applications in Chemistry. Kyzylorda: Syrdaria Publishing.

Fedorova, E. G. (2022). Web 3.0 and Its Impact on Chemical Research and Innovation. Moscow: Prosveshchenie.

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Published

2025-03-22

How to Cite

Tulekova , A. (2025). Artificial Intelligence and Nanotechnology: Future Innovations in Chemistry in the Era of Web 3.0. Eurasian Science Review An International Peer-Reviewed Multidisciplinary Journal, 1(3), 2586–2598. https://doi.org/10.63034/esr-452