# CuxO/Au chimeric micro–nanoparticles for sensitive SERS monitoring of cigarette smoke via synergistic enhancement

**Authors:** Yongfeng Tian, Wang Huo, Jing Xie, Shanzhai Shang, Xia Zhang, Donglai Zhu, Gaofeng Dong, Mingquan Yang, Xingjiu Huang, Xianghu Tang

PMC · DOI: 10.1039/d5na01059d · Nanoscale Advances · 2026-01-05

## TL;DR

Researchers created CuxO/Au hybrid particles that enhance SERS detection for analyzing cigarette smoke with high sensitivity.

## Contribution

A tunable synthesis strategy for CuxO/Au chimeric micro–nanoparticles with synergistic SERS enhancement for dynamic chemical analysis.

## Key findings

- CuxO/Au-10 substrate showed remarkable SERS performance due to electromagnetic and chemical enhancements.
- The substrate enabled sensitive detection of nicotine and dynamic puff-by-puff analysis of cigarette smoke.
- Traditional cigarette smoke produced more complex spectra than heated tobacco product smoke using the SERS method.

## Abstract

Surface-enhanced Raman spectroscopy (SERS) has been widely used for trace analyte detection, largely depending on the design and fabrication of SERS substrates. Among the various types of substrates, hybrid materials that integrate plasmonic metals with functional semiconductors have attracted increasing attention due to their synergistic properties. This study presents the rational design and synthesis of CuxO/Au chimeric micro–nanoparticles as high performance substrates for SERS detection. The hybrids were fabricated via a galvanic replacement reaction, where Cu2O particles acted as both sacrificial templates and reducing agents for the deposition of Au nanostructures from HAuCl4 solutions. By systematically varying the HAuCl4 concentration, the morphology, composition, and interfacial properties of the resulting materials were precisely tuned. The optimized substrate, denoted as CuxO/Au-10, demonstrated remarkable SERS performance, attributed to the synergistic effect of electromagnetic enhancement from Au nanoparticles and chemical enhancement arising from charge transfer at the metal–semiconductor interface. The SERS activity was rigorously evaluated using nicotine as a probe molecule, showing high detection sensitivity. Furthermore, the practical applicability of the substrate was successfully demonstrated in a dynamic puff-by-puff analysis of tobacco smoke from both conventional cigarettes and heated tobacco products (HNB). SERS detection revealed significantly more complex and intense spectra for traditional cigarette smoke compared to the smoke from HNB cigarettes. This highlights the sensitivity and utility of CuxO/Au chimeric micro–nanoparticles for dynamic chemical analysis. This work not only offers a tunable synthesis strategy for high-performance SERS substrates but also paves the way for their application in complex environmental and analytical scenarios.

This study developed a series of CuxO/Au chimeric micro-nanoparticles exhibiting high effectiveness as SERS substrates for chemical sensing. The optimal CuxO/Au-10 substrate was effectively applied in puff-by-puff cigarette smoke analysis.

## Linked entities

- **Chemicals:** nicotine (PubChem CID 942)

## Full-text entities

- **Chemicals:** Au (MESH:D006046), HAuCl4 (MESH:C024568), nicotine (MESH:D009538), Au-10 (-), Cu (MESH:D003300), O (MESH:D010100), Cu2O (MESH:C000520)
- **Species:** Nicotiana tabacum (American tobacco, species) [taxon 4097]

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/PMC12834215/full.md

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12834215/full.md

## References

43 references — full list in the complete paper: https://tomesphere.com/paper/PMC12834215/full.md

---
Source: https://tomesphere.com/paper/PMC12834215