Artificial intelligence for nanomedicine

Xiaolin Song; Xingfa Gao; Hui Wang; Fangzhi Yu; Mengmeng Qin; Yiye Li; Yixuan Liu; Wei Feng; Caiyu Zhou; Nikita N. Chukavin; Liming Wang; Xuejing Cui; Xinghua Shi; Lele Li; Huan Meng; Guangjun Nie; Hao Wang; Jinming Hu; Liang Yan; Yu Chen; Lizeng Gao; Anton L. Popov; Hui Wei; Chunying Chen; Yuliang Zhao

doi:10.1007/s11426-025-2942-5

Artificial intelligence for nanomedicine

Xiaolin Song, Xingfa Gao, Hui Wang, Fangzhi Yu, Mengmeng Qin, Yiye Li, Yixuan Liu, Wei Feng, Caiyu Zhou, Nikita N. Chukavin, Liming Wang, Xuejing Cui, Xinghua Shi, Lele Li, Huan Meng, Guangjun Nie, Hao Wang, Jinming Hu, Liang Yan, Yu ChenLizeng Gao, Anton L. Popov, Hui Wei, Chunying Chen, Yuliang Zhao

Research output: Contribution to journal › Review article › peer-review

7 Scopus citations

Abstract

Nanomedicine has emerged as a dynamically evolving frontier in contemporary medical research. However, the development of nanomedicine is impeded by significant challenges due to its complex, multidisciplinary nature, necessitating the exploration of innovative solutions. Artificial intelligence (AI) has established itself as a pivotal and rapidly advancing domain within nanomedicine research. By leveraging its robust data processing and analytical capabilities, AI can efficiently analyze large datasets and accurately predict the properties and medical functions of nanomaterials. Over the past years, AI applications have proliferated across critical nanomedicine subdomains, including intelligent nanobiosensors for precision diagnostics, AI-optimized nanocarriers for targeted drug delivery, machine learning-guided adjuvant therapy systems, and predictive computational models for nanosafety evaluation. This review aims to provide a thorough analysis of AI’s influence throughout the entire spectrum of nanomedicine, as well as the formidable challenges and extraordinary potential for pioneering researchers. (Figure presented.).

Original language	English (US)
Pages (from-to)	4552-4594
Number of pages	43
Journal	Science China Chemistry
Volume	68
Issue number	10
DOIs	https://doi.org/10.1007/s11426-025-2942-5
State	Published - Oct 2025

Keywords

adjuvant therapy
artificial intelligence
biosensors
drug delivery
nanomaterials
nanosafety

ASJC Scopus subject areas

General Chemistry

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10.1007/s11426-025-2942-5

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title = "Artificial intelligence for nanomedicine",

abstract = "Nanomedicine has emerged as a dynamically evolving frontier in contemporary medical research. However, the development of nanomedicine is impeded by significant challenges due to its complex, multidisciplinary nature, necessitating the exploration of innovative solutions. Artificial intelligence (AI) has established itself as a pivotal and rapidly advancing domain within nanomedicine research. By leveraging its robust data processing and analytical capabilities, AI can efficiently analyze large datasets and accurately predict the properties and medical functions of nanomaterials. Over the past years, AI applications have proliferated across critical nanomedicine subdomains, including intelligent nanobiosensors for precision diagnostics, AI-optimized nanocarriers for targeted drug delivery, machine learning-guided adjuvant therapy systems, and predictive computational models for nanosafety evaluation. This review aims to provide a thorough analysis of AI{\textquoteright}s influence throughout the entire spectrum of nanomedicine, as well as the formidable challenges and extraordinary potential for pioneering researchers. (Figure presented.).",

keywords = "adjuvant therapy, artificial intelligence, biosensors, drug delivery, nanomaterials, nanosafety",

author = "Xiaolin Song and Xingfa Gao and Hui Wang and Fangzhi Yu and Mengmeng Qin and Yiye Li and Yixuan Liu and Wei Feng and Caiyu Zhou and Chukavin, \{Nikita N.\} and Liming Wang and Xuejing Cui and Xinghua Shi and Lele Li and Huan Meng and Guangjun Nie and Hao Wang and Jinming Hu and Liang Yan and Yu Chen and Lizeng Gao and Popov, \{Anton L.\} and Hui Wei and Chunying Chen and Yuliang Zhao",

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year = "2025",

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doi = "10.1007/s11426-025-2942-5",

language = "English (US)",

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T1 - Artificial intelligence for nanomedicine

AU - Song, Xiaolin

AU - Gao, Xingfa

AU - Wang, Hui

AU - Yu, Fangzhi

AU - Qin, Mengmeng

AU - Li, Yiye

AU - Liu, Yixuan

AU - Feng, Wei

AU - Zhou, Caiyu

AU - Chukavin, Nikita N.

AU - Wang, Liming

AU - Cui, Xuejing

AU - Shi, Xinghua

AU - Li, Lele

AU - Meng, Huan

AU - Nie, Guangjun

AU - Wang, Hao

AU - Hu, Jinming

AU - Yan, Liang

AU - Chen, Yu

AU - Gao, Lizeng

AU - Popov, Anton L.

AU - Wei, Hui

AU - Chen, Chunying

AU - Zhao, Yuliang

PY - 2025/10

Y1 - 2025/10

N2 - Nanomedicine has emerged as a dynamically evolving frontier in contemporary medical research. However, the development of nanomedicine is impeded by significant challenges due to its complex, multidisciplinary nature, necessitating the exploration of innovative solutions. Artificial intelligence (AI) has established itself as a pivotal and rapidly advancing domain within nanomedicine research. By leveraging its robust data processing and analytical capabilities, AI can efficiently analyze large datasets and accurately predict the properties and medical functions of nanomaterials. Over the past years, AI applications have proliferated across critical nanomedicine subdomains, including intelligent nanobiosensors for precision diagnostics, AI-optimized nanocarriers for targeted drug delivery, machine learning-guided adjuvant therapy systems, and predictive computational models for nanosafety evaluation. This review aims to provide a thorough analysis of AI’s influence throughout the entire spectrum of nanomedicine, as well as the formidable challenges and extraordinary potential for pioneering researchers. (Figure presented.).

AB - Nanomedicine has emerged as a dynamically evolving frontier in contemporary medical research. However, the development of nanomedicine is impeded by significant challenges due to its complex, multidisciplinary nature, necessitating the exploration of innovative solutions. Artificial intelligence (AI) has established itself as a pivotal and rapidly advancing domain within nanomedicine research. By leveraging its robust data processing and analytical capabilities, AI can efficiently analyze large datasets and accurately predict the properties and medical functions of nanomaterials. Over the past years, AI applications have proliferated across critical nanomedicine subdomains, including intelligent nanobiosensors for precision diagnostics, AI-optimized nanocarriers for targeted drug delivery, machine learning-guided adjuvant therapy systems, and predictive computational models for nanosafety evaluation. This review aims to provide a thorough analysis of AI’s influence throughout the entire spectrum of nanomedicine, as well as the formidable challenges and extraordinary potential for pioneering researchers. (Figure presented.).

KW - adjuvant therapy

KW - artificial intelligence

KW - biosensors

KW - drug delivery

KW - nanomaterials

KW - nanosafety

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Artificial intelligence for nanomedicine

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