Issue 17, 2024

Hierarchical superstructure aerogels for in situ biofluid metabolomics

Abstract

High-throughput biofluid metabolomics analysis for screening life-threatening diseases is urgently needed. However, the high salt content of biofluid samples, which introduces severe interference, can greatly limit the analysis throughput. Here, a new 3-D interconnected hierarchical superstructure, namely a “plasmonic gold-on-silica (Au/SiO2) double-layered aerogel”, integrating distinctive features of an upper plasmonic gold aerogel with a lower inert silica aerogel was successfully developed to achieve in situ separation and storage of inorganic salts in the silica aerogel, parallel enrichment of metabolites on the surface of the functionalized gold aerogel, and direct desorption/ionization of enriched metabolites by the photo-excited gold aerogel for rapid, sensitive, and comprehensive metabolomics analysis of human serum/urine samples. By integrating all these unique advantages into the hierarchical aerogel, multifunctional properties were introduced in the SALDI substrate to enable its effective utilization in clinical metabolomics for the discovery of reliable metabolic biomarkers to achieve unambiguous differentiation of early and advanced-stage lung cancer patients from healthy individuals. This study provides insight into the design and application of superstructured nanomaterials for in situ separation, storage, and photoexcitation of multi-components in complex biofluid samples for sensitive analysis.

Graphical abstract: Hierarchical superstructure aerogels for in situ biofluid metabolomics

Supplementary files

Article information

Article type
Paper
Submitted
20 Nov 2023
Accepted
19 Mar 2024
First published
20 Mar 2024

Nanoscale, 2024,16, 8607-8617

Hierarchical superstructure aerogels for in situ biofluid metabolomics

S. Chen, K. Pu, Y. Wang, Y. Su, J. Qiu, X. Wang, K. Guo, J. Hu, H. Wei, H. Wang, X. Wei, Y. Chen, W. Lin, W. Ni, Y. Lin, J. Chen, S. K. Lai and K. Ng, Nanoscale, 2024, 16, 8607 DOI: 10.1039/D3NR05895F

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